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Accessing the switch for the first time ················································· 43 Setting up the configuration environment ······················································································ 43 Connecting the console cable ····································································································· 43 Setting terminal parameters ······································································································· 44 Powering on the switch ············································································································· 47 Setting up an IRF fabric ··································································· 48 ...
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Appendix B FRUs and compatibility matrixes ······································· 80 Hardware compatibility matrixes ·································································································· 80 Power supply compatibility matrix ························································································· 80 Fan tray compatibility matrix ································································································ 82 Interface card compatibility matrix ························································································· 83 PoE module compatibility matrix (only for the 5800 switches) ······················································ 83 ...
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Index ························································································· 120 ...
JG225A HPE 5800AF-48G Switch 5800AF-48G JG225B IMPORTANT: For regulatory identification purposes, the HPE 5800AF-48G switch is assigned a regulatory model number (RMN) BJNGA-AD0002. This regulatory number should not be confused with the marketing name HPE 5800AF, or product code JG225A/JG225B.
5820X-14XG-SFP+ TAA (2 slots) Slots JG259B IMPORTANT: For regulatory identification purposes, the HPE 5820AF-24XG switch is assigned a regulatory model number (RMN) BJNGA-AD0001. This regulatory number should not be confused with the marketing name HPE 5820AF, or product code JG219A/JG219B. Safety recommendations...
• Adequate clearance is reserved at the air inlet and outlet vents for ventilation. • The rack or workbench has a good ventilation system. • The rack is sturdy enough to support the switch and its accessories. • The rack or workbench is reliably grounded. To ensure normal operation and long service life of your switch, install it in an environment that meets the requirements described in the following subsections.
WARNING! Do not stare into any fiber port when the switch has power. The laser light emitted from the optical fiber might hurt your eyes. The HPE 5800 and HPE 5820X switches are Class 1 laser devices. Installation tools •...
Installing the switch CAUTION: Keep the tamper-proof seal on a mounting screw on the chassis cover intact, and if you want to open the chassis, contact Hewlett Packard Enterprise for permission. Otherwise, Hewlett Packard Enterprise shall not be liable for any consequence.
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Figure 1 Hardware installation flow Start Install the switch Ground the switch Hot-swap fan trays? Fan trays installed? Select and install fan trays Hot-swap power supplies? Select and install power supplies Connect power cords Verify the installation Troubleshoot the Power on the switch switch Operating correctly? Power off the switch...
Installing the switch in a 19-inch rack Installation prerequisites The rack depth for the 5800AF-48G and 5820AF-24XG switches must be 1000 mm (39.37 in). Mounting bracket and cable management bracket kits Table 5 describes the mounting bracket and cable management bracket kits shipped with the switch. Table 5 Mounting bracket and cable management bracket kits Cable Chassis...
Figure 3 2U cable management bracket and mounting bracket kit (1) Cable management bracket (2) Mounting bracket Rack mounting rail kit The 5800AF-48G and 5820AF-24XG switches come with a pair of chassis rails and a pair of slide rails. Figure 4 Rack mounting rail kit (1) Chassis rail (2) Slide rail Rack-mounting procedures at a glance...
Procedure Chassis Procedure references diagram slots) 5800AF-48G/5820AF-24XG. Attaching the mounting brackets, chassis rails, and grounding cable to the chassis • 5800AF-48G (5800AF-48G/5820AF-24XG). Figure 6 • 5820AF-24XG Rack-mounting a 5800AF-48G/5820AF-24XG switch. Attaching the mounting brackets to the chassis • All other 5800 switches (for all the switches except the 5800AF-48G/5820AF-24XG).
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Figure 8 Identifying the mounting and grounding positions (1) Auxiliary grounding point 2 (2) Rear mounting position (3) Primary grounding point (4) Auxiliary grounding point 1 (5) Front mounting position Attaching the mounting brackets and chassis rails to the chassis Align the mounting brackets with the screw holes in the rear mounting position (see Figure 9) or...
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Unpack the grounding cable and grounding screws. You can use the cable and screws shipped with the switch only for connecting to the primary grounding point or auxiliary grounding point 1. Align the two-hole grounding lug at one end of the cable with the grounding holes of the grounding point, insert the grounding screws into the holes, and tighten the screws with a screwdriver to attach the grounding lug to the chassis, as shown in Figure...
Attaching the mounting brackets to the chassis (for all the switches except the 5800AF-48G/5820AF-24XG) All 5800 and 5820X switches except the 5800AF-48G and the 5820AF-24XG have three mounting positions: one front mounting position (near the network ports), one mid-mounting position, and one rear mounting position (near the power supplies).
Figure 14 2U bracket front mounting position NOTE: • Installing the 2U mounting brackets in the rear mounting position is the same as installing the brackets in the front mounting position. • To install the 2U mounting brackets in the mid-mounting position of a 2U switch chassis, first use a screwdriver to loosen the three captive screws and separate the mounting brackets from the cable management brackets (see Figure...
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Figure 16 Installing the slide rails Mounting the switch in the rack This task requires two people. To mount the switch in the rack: Wear an ESD wrist strap and make sure it makes good skin contact and is correctly grounded. Verify that the mounting brackets and chassis rails have been securely attached on the two sides of the switch.
Figure 17 Mounting the switch in the rack (1) Figure 18 Mounting the switch in the rack (2) Rack-mounting a 5800/5820X switch except the 5800AF-48G/5820AF-24XG This installation task requires two people. To mount the switch in the rack: Wear an ESD wrist strap and make sure it makes good skin contact and is correctly grounded. Verify that the mounting brackets have been securely attached to the switch chassis.
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Install cage nuts (user-supplied) in the mounting holes in the rack posts. One person holds the switch chassis and aligns the mounting brackets with the mounting holes in the rack posts, and the other person attaches the mounting brackets with screws (user-supplied) to the rack.
Mounting the switch on a workbench IMPORTANT: • Ensure good ventilation and 10 cm (3.9 in) of clearance around the chassis for heat dissipation. • Avoid placing heavy objects on the switch. To mount the switch (except the 5800AF-48G and the 5820AF-24XG) on a workbench: Verify that the workbench is sturdy and correctly grounded.
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Figure 20 Connecting the grounding cable to a grounding strip (1) Hex nut (2) Ring terminal (3) Grounding post (4) Grounding strip NOTE: • As a best practice, use the primary grounding point or auxiliary grounding point 1, because the grounding cable and grounding screw provided with the switch are applicable only to these two grounding points.
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Figure 21 Connecting the grounding cable to the grounding hole of switch (1) Chassis rear panel (2) Grounding sign (3) Grounding hole (4) Ring terminal (5) Grounding cable (6) Grounding screw Remove the hex nut of a grounding post on the grounding strip. Cut the grounding cable as appropriate for connecting to the grounding strip.
Grounding the switch by using the AC power cord If the installation site has no grounding strips, ground an AC-powered switch through the protective earth (PE) wire of the power cord. Make sure that: • The power cord has a PE terminal. •...
CAUTION: The 5800AF-48G and 5820AF-24XG switches require two same direction air flow fan trays to function correctly. • Do not operate the system with only one fan tray for more than 24 hours. • Do not operate the system without any fan tray for more than 2 minutes. •...
Figure 26 Installing an LSWM1FANSC or LSWM1FANSCB fan tray Removing a fan tray WARNING! • Take out the fan tray after the fans completely stop rotating. • To avoid an unbalanced fan causing loud noise, do not touch the fans, even if they are not rotating.
Figure 28 Removal procedure NOTE: • HPE 58x0AF 650W AC power supply is referred to as 650 W AC power supply and HPE 58x0AF 650W DC power supply is referred to as 650W DC power supply throughout this installation guide.
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Figure 30 Installing a power filler module Removing a power supply CAUTION: • If the switch has two power supplies, removing one power supply does not affect the operation of the switch. If the switch has only one power supply, removing the power supply powers off the switch.
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Figure 31 Removing the DC power cord (1) Press the tabs on the power cord connector (2) Pull the power cord connector out with your thumb and forefinger Figure 32 Removing the power supply (1) Pivot the latch to the right with your thumb (2) Pull the power supply out...
5800-48G-PoE+ (2 slots)/5800-48G-PoE+ TAA (2 slots)/5800-24G-SFP (1 slot)/5800-24G-SFP TAA (1 slot)/all the 5820X switches but the 5820AF-24XG Installing a power supply Wear an ESD wrist strap and make sure it makes good skin contact and is correctly grounded. If the power supply slot is covered by a filler panel, remove the filler panel first. Handle the filler module at the rear of the switch: To install the PSR750-A power supply into the 5800-48G-PoE+ (2 slots) or 5800-48G-PoE+ TAA (2 slots) switch, remove the filler module (see callout 1 and callout 2 in...
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Figure 34 Installing the PSR750-A power supply Figure 35 Installing other power supply models Removing a power supply Wear an ESD wrist strap and make sure it makes good skin contact and is correctly grounded. Switch off the power supply and disconnect the power cord. Loosen the captive screws of the power supply with a Phillips screwdriver until they are completely disengaged.
Connecting the power cord Table 7 Power cord connection procedures at a glance Power supply Connection procedure reference Built-in power supply AC input Connecting an AC power cord to the switch –54 VDC input (RPS powered) Connecting the switch to a –54 VDC output RPS 12 VDC input (RPS powered) Connecting the switch to a 12 VDC output RPS Hot swappable power supply...
Figure 36 Connecting the AC power cord to the switch Figure 37 Connecting the AC power cord to the switch Connecting the switch to a –54 VDC output RPS This section applies to the 5800-48G-PoE+ (1 slot), 5800-48G-PoE+ TAA (1 slot), 5800-24G-PoE+, and 5800-24G-PoE+TAA switches.
Figure 38 Connecting the switch to a –54 VDC output RPS Connecting the switch to a 12 VDC output RPS This section applies to the 5800-48G (1 slot), 5800-48G TAA (1 slot), 5800-24G, and 5800-24G TAA switches. To connect these switches to the RPS that provides 12 VDC output: Loosen the captive screws on the RPS receptacle and remove the cover, as shown in Figure Put away the cover and re-install it after you remove the RPS DC-input power connector.
Figure 40 Connecting the RPS power cord to the switch Connecting the PSR150-A/PSR150-A1 power supply This section applies to the 5800-24G-SFP (1 slot) and 5800-24G-SFP TAA (1 slot) switches. To connect the PSR150-A/PSR150-A1 power supply: Connect one end of the AC power cord supplied with the power supply to the power receptacle on the power supply (see callout 1 in Figure 41).
Figure 42 Connecting the PSR150-D power supply Connecting the PSR150-D/PSR150-D1 power supply to a –54 VDC output RPS This section applies to the 5800-24G-SFP (1 slot) and 5800-24G-SFP TAA (1 slot) switches. To connect the PSR150-D/PSR150-D1 power supply to a –54 VDC output RPS: Unpack the RPS power cord, identify the plug for connecting to the power supply, correctly orient the plug with the power receptacle on the power supply, and insert the plug into the receptacle (see callout 1 in...
Figure 43 Connecting the PSR300-12A power supply Connecting the PSR300-12D1/PSR300-12D2 power supply to a –48 VDC power source This section applies to the 5800-48G-PoE+ (2 slots), 5800-48G-PoE+ TAA (2 slots), 5820X-24XG-SFP+, 5820X-24XG-SFP+ TAA, 5820X-14XG-SFP+ (2 slots) and 5820X-14XG-SFP+ TAA (2 slots) switches. To connect the PSR300-12D1/PSR300-12D2 power supply to a –48 VDC power source: Verify that the DC power supply is off.
Figure 44 Connecting the PSR300-12D1 power supply Connecting the PSR300-12D1/PSR300-12D2 power supply to a –54 VDC output RPS This section applies to the 5800-48G-PoE+ (2 slots), 5800-48G-PoE+ TAA (2 slots), 5820X-24XG-SFP+, 5820X-24XG-SFP+ TAA, 5820X-14XG-SFP+ (2 slots) and 5820X-14XG-SFP+ TAA (2 slots) switches. To connect the PSR300-12D1/PSR300-12D2 power supply to a –54 VDC output RPS: Unpack the RPS power cord, identify the plug for connecting to the power supply, orient the plug with the power receptacle on the power supply, and insert the plug into the receptacle (see...
Figure 45 Connecting the PSR750-A power supply Connecting the 650 W AC/300 W AC power supply This section applies to the 5800AF-48G and 5820AF-24XG switches. To connect the 650 W AC/300 W AC power supply: Insert the female connector of the AC power cord supplied with the power supply into the power receptacle on the power supply.
To connect the 650 W DC/300 W DC power supply: Unpack the DC power cord, identify the plug for connecting to the power supply, orient the plug with the power receptacle on the power supply, and insert the plug into the receptacle (see Figure 47).
Figure 48 Removing the filler panel from an interface card slot (1) Phillips screwdriver (2) Chassis front panel (3) Filler panel Put away the removed filler panel for future use. Unpack the interface card and make sure the ejector levers are perpendicular to the card panel. Gently push the interface card in along the slot guide rails until the interface card has good contact with the switch chassis, and push the ejector levers inward.
Use a Phillips screwdriver to completely loosen the captive screws at both sides of the interface card. Do not use excessive force during the operation. Pull the ejector levers at both sides of the interface card outward, and pull the interface card along the guide rails until it completely comes out of the switch chassis.
(1) Rotate counterclockwise (2) Filler panel in the OAP card slot (3) Phillips screwdriver Put away the removed filler panel for future use. Unpack the OAP card and verify that this OAP card can be installed in the OAP card slot. Hold the OAP card with the ejector levers on top, push the OAP card slowly along the guide rails into the slot (see callout 3 in Figure...
Figure 53 Removing the OAP card (1) OAP card (2) Chassis rear panel (3) Pull the ejector levers outward (4) Pull out the OAP card Installing an OAP card in an expansion interface card slot Unpack the OAP card and verify that the card can be installed in an expansion interface card slot (see "OAP cards").
Figure 54 Installing a PoE module Removing the PoE module Wear an ESD wrist strap and make sure it makes good skin contact and is correctly grounded. Use a Phillips screwdriver to completely loosen the captive screws on the PoE module. Pull the ejector levers outward (see callout 1 in Figure 55).
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• All the interface cables are cabled indoors. If any cable is routed outdoors, verify that the socket strip with lightning protection and lightning arresters for network ports have been correctly connected.
Accessing the switch for the first time Setting up the configuration environment The first time you access the switch you must use a console cable to connect a console terminal, for example, a PC, to the console port on the switch, as shown in Figure Figure 56 Connecting the console port to a terminal Connecting the console cable...
Setting terminal parameters To configure and manage the switch, you must run a terminal emulator program on the console terminal. The following are the required terminal settings: • Bits per second—9,600. • Data bits—8. • Parity—None. • Stop bits—1. • Flow control—None.
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Figure 59 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. Figure 60 Setting the serial port parameters Select File >...
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Figure 61 HyperTerminal window On the Settings tab, set the emulation to VT100 and click OK. Figure 62 Setting terminal emulation in Switch Properties dialog box...
Powering on the switch Before powering on the switch, verify that: • The power cord is correctly connected. • The input power voltage meets the requirement of the switch. • The console cable is correctly connected, the terminal or PC used for configuration has started, and the configuration parameters have been set.
Setting up an IRF fabric You can use Hewlett Packard Enterprise IRF technology to connect and virtualize 5800 and 5820X switches into a large virtual switch called an "IRF fabric" for flattened network topology, and high availability, scalability, and manageability. NOTE: You can set up a heterogeneous IRF fabric that has both 5800 and 5820X switches or a homogeneous IRF fabric that has only 5800 or 5820X switches.
A 5800/5820X IRF fabric can have up to 10 switches. When you set up an IRF fabric that has both 5800 and 5820X switches, see HPE 5820X & 5800 Heterogeneous IRF Feature Guide. A heterogeneous IRF fabric supports different specifications for some features than a homogeneous IRF fabric.
Planning IRF topology and connections You can create an IRF fabric in daisy chain topology, or more reliably, ring topology. In ring topology, the failure of one IRF link does not cause the IRF fabric to split as in daisy chain topology. Rather, the IRF fabric changes to a daisy chain topology without interrupting network services.
Identifying physical IRF ports on the member switches Identify the physical IRF ports on the member switches according to your topology and connection scheme. Table 8 shows the physical ports that can be used for IRF connection and the port use restrictions. Table 8 Physical IRF port requirements Candidate physical IRF Chassis...
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Connector code description specifications distance h (in nm) 300 m (984.25 ft) 50/125 µm 82 m (269.03 ft) HPE X130 multimode fiber 10G SFP+ LC JD092B 66 m (216.54 ft) Transceiver 33 m (108.27 ft) 62.5/125 µm multimode fiber 26 m (85.30 ft) 62.5/125 µm...
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Figure 66 Connecting the switches in one rack...
• To bind the ports on an interface card to an IRF port, you must install the interface card first. For how to install an interface card, see HPE 5820X & 5800 Switch Series Interface Cards User Guide. •...
Wear an ESD wrist strap when you connect SFP+ cables or SFP+ transceiver modules and fibers. For how to connect them, see HPE SFP[SFP+][XFP] Transceiver Modules and Network Cables Installation Guide. Verifying the IRF fabric setup To verify the basic functionality of the IRF fabric after you finish configuring basic IRF settings and connecting IRF ports: Log in to the IRF fabric through the console port of any member switch.
Maintenance and troubleshooting This chapter describes how to troubleshoot your switch. Password loss This section helps you handle several common password loss situations. Console login password loss To resolve the problem: Access the Boot menu. BOOT MENU 1. Download application file to flash 2.
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Table 11 Description for the power failure indication LEDs Mark Status Description System status The switch is powered off. The AC input is normal, and the RPS is in position or Steady green operating correctly. RPS status LED RPS power input is normal, but AC input has failed or Steady yellow AC input is not connected.
Table • For more information about the LEDs on a power supply, see HPE PSR300-12A & PSR300-12D Series Power Supplies User Guide, HPE 58x0AF 650W AC (JC680A) & 650W DC (JC681A) Power Supplies User Guide, HPE 58x0AF 300W AC (JG900A) & 300W DC (JG901A) Power Supplies User Guide, and HPE PSR750-A Power Supply User Guide.
• For more information about the SLOT3 LED, see Table • For more information about the LEDs on the OAP card, see HPE OAP Cards User Guide. Symptom The OAP card LED (SLOT3) is not steady green. Solution To resolve the problem: Verify that the OAP card is compatible with the switch and can be installed in the OAP card slot.
Symptom The OAP card is not operating correctly. Solution To resolve the problem: Verify that the OAP card is compatible with the switch and can be installed in an expansion interface card slot. Verify that the OAP card is correctly installed and well seated in the slot. If the problem persists, contact Hewlett Packard Enterprise Support.
fans. If a fan failure occurs, contact Hewlett Packard Enterprise Support for help and do not attempt to fix the problem yourself. Hot swappable fan tray failure CAUTION: You can replace a hot swappable fan tray without powering off the switch. To prevent overheat, replace the failed fan tray within 2 minutes for the 5800-48G-PoE+ (2 slots), 5800-48G-PoE+ TAA (2 slots), 5800-24G-SFP (1 slot), 5800-24G-SFP TAA (1 slot), 5820X-24XG-SFP+, 5820X-24XG-SFP+ TAA, 5820X-14XG-SFP+ (2 slots), and 5820X-14XG-SFP+ TAA (2 slots)
Garbled terminal display Symptom Terminal display is garbled. Solution To resolve the problem: Verify that the following settings are configured for the terminal: Baud rate—9,600. Data bits—8. Parity—none. Stop bits—1. Flow control—None. Emulation—VT100. If the problem persists, contact Hewlett Packard Enterprise Support.
Appendix A Chassis views and technical specifications Chassis views 5800-48G-PoE+ (2 slots)/5800-48G-PoE+ TAA (2 slots) Figure 69 Front panel (1) Expansion interface card slot 1 (2) Expansion interface card slot 2 (3) 10/100/1000Base-T Ethernet port LED (4) Seven-segment LED (5) Port mode LED (6) Console port (7) USB port (8) System status LED (SYS)
Figure 70 Rear panel (1) OAP card slot (2) PoE module slot (3) Grounding screw (4) Filler modules (5) Power supply slot 1 (6) Power supply slot 2 (7) Hot swappable fan tray NOTE: • The 5800-48G-PoE+ (2 slots) and 5800-48G-PoE+ TAA (2 slots) switches come with power supply slot 1 empty and power supply slot 2 installed with a filler panel.
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To avoid any damage to the logo plate, always follow these instructions on opening and closing the logo plate: Insert your finger into the notch on the right side of the logo plate to open it. Do not try to open the logo plate in any other ways.
Figure 74 Rear panel (1) AC-input power receptacle (2) RPS receptacle (3) Grounding screw (4) Expansion interface card slot NOTE: • The 5800-48G (1 slot) and 5800-48G TAA (1 slot) switches come with the expansion interface card slot covered by a filler panel. In this figure, an LSW1SP4P0 interface card is installed in the slot.
Figure 76 Rear panel (1) RPS receptacle (2) AC-input power receptacle (3) Grounding screw (4) Expansion interface card slot NOTE: The 5800-48G-PoE+ (1 slot) and 5800-48G-PoE+ TAA (1 slot) switches come with the expansion interface card slot covered by a filler panel. In this figure, an LSW1SP4P0 interface card is installed in the slot.
(1) Grounding screw (auxiliary grounding point 2) (2) Management Ethernet port (7) Power supply slot 2 (8) LINK LED for the management Ethernet port (9) ACT LED for the management Ethernet port (10) USB port NOTE: • The 5800AF-48G switch comes with the power supply slots empty and the filler modules for the slots as accessory.
Figure 81 Rear panel (1) AC-input power receptacle (2) RPS receptacle (3) Grounding screw (4) Expansion interface card slot NOTE: • The 5800-24G and 5800-24G TAA switches come with the expansion interface card slot covered by a filler panel. In this figure, an LSW1SP4P0 interface card is installed in the slot. •...
NOTE: The 5800-24G-PoE+ and 5800-24G-PoE+TAA switches come with the expansion interface card slot covered by a filler panel. In this figure, an LSW1SP4P0 interface card is installed in the slot. 5800-24G-SFP (1 slot)/5800-24G-SFP TAA (1 slot) Figure 84 Front panel (1) Interface card slot (2) 100/1000Base-X SFP port (3) 100/1000Base-X SFP port LED...
NOTE: The 5800-24G-SFP (1 slot) and 5800-24G-SFP TAA (1 slot) switches come with power supply slot 1 empty and power supply slot 2 covered by a filler panel. You can install one or two power supplies for the switch as needed. In this figure, two PSR150-A AC power supplies are installed in the slots. 5820AF-24XG Figure 86 Front panel (1) SFP+ port...
Figure 88 Left side panel (1) Primary grounding point (2) Auxiliary grounding point 1 5820X-24XG-SFP+/5820X-24XG-SFP+ TAA Figure 89 Front panel (1) SFP+ port (2) SFP+ port LED (3) 10/100/1000Base-T auto-sensing Ethernet port (4) 10/100/1000Base-T Ethernet port LED (5) Management Ethernet port (6) Console port (7) USB port (8) Seven-segment LED...
NOTE: The 5820X-24XG-SFP+ and 5820X-24XG-SFP+ TAA switches come with power supply slot 1 empty and power supply slot 2 covered by a filler panel. You can install one or two power supplies for your switch as needed. In this figure, two PSR300-12A AC power supplies are installed in the slots.
Power specifications AC-input power specifications Min power Max power Chassis AC-input voltage consumptio consumption • • Rated voltage: Single outputs: • 5800-48G-PoE+ (2 100 VAC to 240 VAC, 50 or 60 714 W (425 W for slots) PoE output) 96 W •...
Min power Max power Chassis AC-input voltage consumptio consumption • Rated voltage: 100 VAC to 240 VAC, 50 or 60 • 5820X-24XG-SFP+ • 128 W 185 W 5820X-24XG-SFP+ • Max voltage: 90 VAC to 264 VAC, 47 or 63 • Rated voltage: •...
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DC-input rated Min power Max power Chassis voltage consumption consumption • 5800-24G 10.8 VDC to 13.2 VDC 67 W 105 W • 5800-24G TAA 5800-24G-PoE+/5800-24G-PoE 870 W (740 W for PoE –52 VDC to –55 VDC 64 W +TAA output) •...
Appendix B FRUs and compatibility matrixes This appendix describes the field replaceable units (FRUs) available for the 5800 and 5820X switches and their compatibility. All the FRUs in this appendix are hot swappable. Hardware compatibility matrixes Interface cards, OAP cards, PoE modules, power supplies, and redundant power systems (RPSs) must be purchased separately.
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58x0AF 58x0AF PSR300 650W AC 650W DC PSR150- PSR150- -12A PSR300- power power (JC087 12D1 PSR750 supply supply (JD362A (JD366A A)/PSR (JC090A) (JC680A)/ (JC681A)/ Chassis )/PSR15 )/PSR15 300-12A /PSR300- (JC089 0-A1 0-D1 12D2 58x0AF 58x0AF (JD362A (JD366A (JC087 (JC090A) 300W AC 300W DC power power...
Hot Swappable Power Supply Ordering Guide for HPE 5800-48G-PoE+ Switch with 2 Interface Slots. • The HPE 5800AF-48G/5820AF-24XG switch does not support mix of a 650 W AC power supply and a 650 W DC power supply.
Reference • Rated input voltage range: —100 VAC to 240 VAC @ 50 Hz or 60 • PSR150-A HPE PSR150-A & PSR150-D Series • Max input voltage range: • PSR150-A1 Power Supplies User Guide 90 VAC to 264 VAC @ 47 Hz or 63 Hz •...
Max output power: 300 W • Rated input voltage range: 100 VAC to 240 VAC @ 50 Hz or 60 Hz HPE 58x0AF 650W AC (JC680A) & • Max input voltage range: 650 W AC power 650W DC (JC681A) Power Supplies...
40 × 40 × 28 mm (1.57 × 1.57 × 1.1 in) fans: 9500 R.P.M Max airflow 150 cubic feet per minute (CFM) Input voltage 12 V Maximum power consumption 15 W Documentation reference HPE LSW1FAN & LSW1BFAN Fan Assemblies Installation LSW1BFAN Fans Fan speed 5000 R.P.M Max airflow 41.65 CFM Input voltage...
16-port 10/100/1000Base-T Ethernet electrical Provides sixteen 10/100/1000 Mbps LSW1GT16P interface card Ethernet copper ports. For more information about the interface cards, see HPE 5820X & 5800 Switch Series Interface Cards User Guide. OAP cards Card model Name Slot...
Appendix C Ports and LEDs Ports Console port Every 5800 or 5820X switch has one console port. Table 13 Console port specifications Item Specification Connector type RJ-45 Compliant standard EIA/TIA-232 Transmission baud rate 9600 bps (default) to 115200 bps • Provides connection to an ASCII terminal.
• The SFP transceiver modules available for this switch series are subject to change over time. For the most up-to-date list of SFP transceiver modules, consult your Hewlett Packard Enterprise sales representative or technical support engineer. • For the SFP transceiver module specifications, see HPE Comware-Based Devices Transceiver Modules User Guide. SFP+ port All 5800 and 5820X switches but the 5800-48G-PoE+ (2 slots) and the 5800-48G-PoE+ TAA (2 slots), has fixed SFP+ ports.
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HPE X240 10G SFP+ SFP+ 3m DA Cable 3 m (9.84 ft) JG081C HPE X240 10G SFP+ SFP+ 5m DA Cable 5 m (16.40 ft) HPE X240 10G SFP+ SFP+ 7m Direct Attach Copper JC784C 7 m (22.97 ft) Cable...
For the most up-to-date list of SFP transceiver modules, consult your Hewlett Packard Enterprise sales representative or technical support engineer. • For the SFP transceiver module specifications, see HPE Comware-Based Devices Transceiver Modules User Guide. The SFP+ cables available for the 5800 and 5820X switches are 10 Gbps SFP+ Cu cables, as...
5820X-14XG-SFP+ (2 slots), 5820X-14XG-SFP+ TAA (2 slots) PoE module status LED 5800-48G-PoE+ (2 slots), 5800-48G-PoE+ TAA (2 slots) 5800 series but the following models: Interface card status LED 5800-48G-PoE+ (2 slots), 5800-48G-PoE+ TAA (2 slots), 5800AF-48G, 5800-24G-SFP (1 slot), 5800-24G-SFP TAA (1 slot) System status LED The system status LED shows the operating status of the switch.
Table 24 describes the RPS status LED behaviors for the 5800-24G, 5800-24G TAA, 5800-48G (1 slot), and 5800-48G TAA (1 slot) switches. Table 25 describes the RPS status LED behaviors for the 5800-24G-PoE+, 5800-24G-PoE+TAA, 5800-48G-PoE+ (1 slot), and 5800-48G-PoE+ TAA (1 slot) switches. Table 24 RPS status LED description (I) LED mark Status...
System status LED Seven-segment LED (Unit) status Description (SYS) status The LED displays flashing numbers. POST has failed, and the LED Flashing red flashes the ID of the failed test item. A bar rotates clockwise around the LED. Flashing green Software is loading.
Table 29 10/100/1000Base-T auto-sensing Ethernet port LED description Port mode LED (Mode) Port LED status Description status The port is operating at 1000 Mbps. The port LED fast Steady green flashes when the port is sending or receiving data. The port is operating at 10/100 Mbps. The port LED fast Steady green Steady yellow flashes when the port is sending or receiving data.
SFP+ port LED Each SFP+ port has a status LED to show port operating status and activities. The port mode LED indicates the type of information (for example, port rate or duplex mode) that the port LEDs are showing. You can use the port LED mode switching button to change the type of displayed port information.
PoE module status LED The SLOT4 LED shows the status of the PoE module. Table 34 PoE module status LED description LED mark Status Description Green The PoE module is in position and operating correctly. The switch does not support the PoE module model, or the SLOT4 Flashing yellow (1 Hz) PoE module has failed.
Appendix D Cooling system The cooling system of 5800 and 5820X switches comprises the ventilation holes in the chassis, fan trays, and built-in fans of hot swappable power supplies. To guarantee that this cooling system can effectively work, you must consider the site ventilation design when you plan the installation site for the switches.
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Figure 94 Airflow through the lower half of the chassis (1) Outlet air vents in the power supply panels (2) Outlet air vents in the fan tray panel (3) Front panel (4) Side inlet air vents...
Figure 95 Airflow through the upper half of the chassis (1) Outlet air vents in the fan tray panel (2) Front panel (3) Side inlet air vents 5800-48G (1 slot)/5800-48G TAA (1 slot) Figure 96 shows the airflow design for the 5800-48G (1 slot) and 5800-48G TAA (1 slot) switches. Cool air flows in from the left side of the chassis, circulates through the chassis and the interface card, and exhausts out the right side of the chassis.
Figure 96 Airflow through the chassis (1) Left-side inlet air vents (2) Right-side outlet air vents (3) Front panel 5800-48G-PoE+ (1 slot)/5800-48G-PoE+ TAA (1 slot) Figure 97 shows the airflow design for the 5800-48G-PoE+ (1 slot) and 5800-48G-PoE+ TAA (1 slot) switches.
Figure 97 Airflow through the chassis (1) Left-side inlet air vents (2) Right-side outlet air vents (3) Front panel 5800AF-48G The fan trays in the 5800AF-48G switch must be the same type: LSWM1FANSC or LSWM1FANSCB. • When LSWM1FANSC fan trays are used, cool air flows in through the air vents in the fan tray panel and the power supply panels, circulates through the chassis and the power supplies, and exhausts at the network port side, as shown in Figure...
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Figure 98 Airflow through the chassis (with LSWM1FANSC fan trays) (1) Power supply air vents (2) Fan tray air vents (3) Network port-side air vents...
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Figure 99 Airflow through the chassis (with LSWM1FANSCB fan trays) (1) Power supply air vents (2) Fan tray air vents (3) Network port-side air vents IMPORTANT: The chassis and the power supplies use separate air aisles. Make sure both aisles are not blocked.
5800-24G/5800-24G TAA Figure 100 shows the airflow design for the 5800-24G and 5800-24G TAA switches. Cool air flows in from the left side of the chassis, circulates through the chassis and the interface card, and exhausts out the right side of the chassis. Figure 100 Airflow through the chassis (1) Left-side inlet air vents (2) Right-side outlet air vents...
Figure 101 Airflow through the chassis (1) Left-side inlet air vents (2) Right-side outlet air vents (3) Front panel 5800-24G-SFP (1 slot)/5800-24G-SFP TAA (1 slot) Figure 102 shows the airflow through the 5800-24G-SFP (1 slot)/5800-24G-SFP TAA (1 slot) chassis and power supplies. Cool air flows in from the two sides of the chassis, circulates through the chassis and power supplies, and exhausts through the air vents in the fan tray panel and the power supply panels.
Figure 102 Airflow through the chassis (1) Front panel (2) Side inlet air vents (3) Outlet air vents in the fan tray panel (4) Outlet air vents in the power supply panels IMPORTANT: The chassis and the power supplies use separate air aisles. Make sure that both aisles have good ventilation.
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Figure 103 Airflow through the chassis (with LSWM1FANSC fan trays) (1) Fan tray air vents (2) Power supply air vents (3) Network port-side air vents...
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Figure 104 Airflow through the chassis (with LSWM1FANSCB fan trays) (1) Fan tray air vents (2) Power supply air vents (3) Network port-side air vents IMPORTANT: The chassis and the power supplies use separate air aisles. Make sure that both aisles are not blocked.
5820X-24XG-SFP+/5820X-24XG-SFP+ TAA Figure 105 shows the airflow through the 5820X-24XG-SFP+/5820X-24XG-SFP+ TAA chassis and power supplies. Cool air flows in from the two sides and front of the chassis, circulates through the chassis and power supplies, and exhausts through the air vents in the fan tray panel and the power supply panels.
5820X-14XG-SFP+ (2 slots)/5820X-14XG-SFP+ TAA (2 slots) The 5820X-14XG-SFP+ (2 slots) and 5820X-14XG-SFP+ TAA (2 slots) switch chassis are 2U high and use separate air aisles for their upper half and lower half. Make sure that the two air aisles have good ventilation.
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Figure 107 Airflow through the upper half of the chassis (1) Outlet air vents in the fan tray panel (2) Front panel (3) Side inlet air vents...
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 Bold text represents commands and keywords that you enter literally as shown. Boldface Italic text represents arguments that you replace with actual values.
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.
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 •...
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,...
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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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Index A C E F G H I L M N O P S V Installing/removing a power supply,22 Installing/removing an interface card,36 Accessing Hewlett Packard Enterprise Support,117 Installing/removing an OAP card,38 Accessing updates,117 Interface cards,87 IRF fabric setup flowchart,48 Chassis views,63 Configuration terminal...
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