ExtremeSwitching Hardware Installation Guide for Switches Using ExtremeXOS Version 30 121248-05 Rev.
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Table of Contents Preface................................................................................................................................. 14 Audience......................................................................................................................................................................... 14 Conventions..................................................................................................................................................................
Table of Contents ExtremeSwitching X440-G2 Series Switch LEDs............................................................................. 46 ExtremeSwitching X450-G2 Series Switches.............................................................................................. 47 ExtremeSwitching X450-G2-24t-GE4 Switch Ports and Slots.................................................. 48 ExtremeSwitching X450-G2-24t-10GE4 Switch Ports and Slots..............................................
Table of Contents ExtremeSwitching X590 Series Switch LEDs..................................................................................... 87 ExtremeSwitching X620 Series Switches......................................................................................................89 X620 Stacking.................................................................................................................................................... 89 Additional X620 Features.................................
Table of Contents Summit 770 W AC Power Supplies........................................................................................................ 136 Summit 1100 W AC Power Supplies....................................................................................................... 137 Summit 1100 W DC Power Supplies....................................................................................................... 137 ExtremeSwitching 2000 W AC Power Supply.....................................
Table of Contents Installing Cable................................................................................................................................................... 171 Using RJ45 Connector Jackets.................................................................................................................175 Preventing Radio Frequency Interference (RFI).............................................................................. 176 Meeting Power Requirements..........................
Table of Contents Logging in for the First Time..................................................................................................................... 261 Configuring the Switch's IP Address for the Management VLAN..........................................262 Configuring ExtremeXOS on the Switch............................................................................................ 263 Installing External Power Supplies.....................................................................
Table of Contents Installing an LRM/MACsec Adapter Horizontally............................................................................ 318 Installing LRM/MACsec Adapters in the Five-Slot Bracket........................................................ 319 Installing an LRM/MACsec Adapter Vertically.................................................................................320 Connecting the LRM/MACsec Adapter to the Host Switch and to Power........................
Table of Contents Airflow Direction Requirements...................................................................................................................... 369 Replacing a Fan Module...................................................................................................................................... 370 Removing and Replacing Expansion Modules............................................................. 371 Removing or Replacing a V300 Virtual Port Extender......................
Table of Contents Fan Speed.......................................................................................................................................................... 422 Acoustic Sound............................................................................................................................................... 422 Power Specifications....................................................................................................................................
Table of Contents Summit 350 W Power Supplies Technical Specifications...................................................................456 Summit 350 W AC Power Supply (XN-ACPWR-350W-FB, 10953, 10954)...................... 456 Summit 550 W Power Supplies Technical Specifications................................................................... 457 Summit 715 W Power Supplies Technical Specifications.....................................................................
Table of Contents Index..................................................................................................................................
Preface This guide provides the instructions and supporting information needed to install the following Extreme Networks® ExtremeSwitching® and Summit® family switches: • • • • • • • • • • • ExtremeSwitching X435 Series Switches on page 22 ExtremeSwitching X440-G2 Series Switches on page 30 ExtremeSwitching X450-G2 Series Switches on page 47 ExtremeSwitching X460-G2 Series Switches on page 58 ExtremeSwitching X465 Series Switches on page 74 ExtremeSwitching X590 Series Switches on page 83 ExtremeSwitching
Preface Text Conventions Text Conventions Unless otherwise noted, information in this document applies to all supported environments for the products in question. Exceptions, like command keywords associated with a specific software version, are identified in the text. When a feature, function, or operation pertains to a specific hardware product, the product name is used.
Preface Terminology Table 3: Command syntax Convention Description bold text Bold text indicates command names, keywords, and command options. italic text Italic text indicates variable content. [ ] Syntax components displayed within square brackets are optional. Default responses to system prompts are enclosed in square brackets. { x | y | z } A choice of required parameters is enclosed in curly brackets separated by vertical bars. You must select one of the options.
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ExtremeSwitching Switches Overview of the Switches on page 20 ExtremeSwitching X435 Series Switches on page 22 ExtremeSwitching X440-G2 Series Switches on page 30 ExtremeSwitching X450-G2 Series Switches on page 47 ExtremeSwitching X460-G2 Series Switches on page 58 ExtremeSwitching X465 Series Switches on page 74 ExtremeSwitching X590 Series Switches on page 83 ExtremeSwitching X620 Series Switches on page 89 ExtremeSwitching X670-G2 Series Switches on page 96 ExtremeSwitching X690 Series Switches on page
Overview of the Switches • • • • ExtremeSwitching Switches ExtremeSwitching X670-G2 Series Switches on page 96 ExtremeSwitching X690 Series Switches on page 100 ExtremeSwitching X695 Switch on page 107 ExtremeSwitching X870 Series Switches on page 112 Overview of the Switches The following sections describe the ExtremeSwitching switches and summarize the features available in each series.
ExtremeSwitching Switches Port Partitioning connect copper ports x and y on a switch, and then insert SFPs into ports x and y, the switch assigns the copper ports as active ports and the fiber ports as redundant ports. Hardware identifies when a link is lost and responds by swapping the primary and redundant ports to maintain stability. After a failover occurs, the switch keeps the current port assignment until another failure occurs or a user changes the assignment using the CLI.
ExtremeSwitching Switches ExtremeSwitching X435 Series Switches Table 4: QSFP28 and QSFP+ Port Partitioning (continued) Switch model Port bandwidth Port partitions X870 (all models) QSFP28 and QSFP+ 100 Gb One 100 Gb port with one of the following: • Two 50 Gb ports • Four 25 Gb ports Note: On X870-96x-8c series switches, an optional Switch Port Speed License is required to increase the data rate to 100 Gb on physical ports 1 through 24.
ExtremeSwitching Switches Power Supplies Power Supplies The non-PoE X435 Series switches contain internal, non-FRU power supplies. X435-8P-2T-W is powered via the front PoE/PD ports. Operating Temperatures The 8-port X435 switch models support an operating range from 0°C to 40°C. The 24-port models support an operating range from 0°C to 45°C. Temperature restrictions apply for some models at high altitudes. See each individual model's description for more detail.
ExtremeSwitching X435-8P-4S Switch Features ExtremeSwitching Switches The rear panel of the X435-8T-4S switch includes: • AC power input socket The internal AC power supply operates from 100VAC to 240VAC. Figure 2: X435-8T-4S Switch Rear Panel ExtremeSwitching X435-8P-4S Switch Features The front panel of the X435-8P-4S switch includes: • Eight 10/100/1000BASE-T PoE+ ports that provide 8Gbps of high-density copper connectivity.
ExtremeSwitching X435-8P-2T-W Switch Features ExtremeSwitching Switches 2 = USB A port 4 = 10/100/1000BASE-T PoE+ ports Note *2.5Gb uplink support is a future capability The rear panel of the X435-8P-4S switch includes: • AC power input socket The internal AC power supply operates from 100VAC to 240VAC.
ExtremeSwitching Switches ExtremeSwitching X435-24T-4S Switch Features Figure 5: X435-8P-2T-W Front Panel 1 = System LEDs 3 = RJ-45 console port 2 = USB A port 4 = 10/100/1000BASE-T PoE+ ports 5 = 10/100/1000BASE-T 802.3bt ports Figure 6: X435-8P-2T-W Rear Panel ExtremeSwitching X435-24T-4S Switch Features The front panel of the X435-24T-4S switch includes: • • Twenty-four 10/100/1000BASE-T ports that provide 24Gbps of high-density copper connectivity. Four unpopulated 1/2.
ExtremeSwitching X435-24P-4S Switch Features ExtremeSwitching Switches Figure 7: X435-24T-4S Front Panel 1 = System LEDs 3 = RJ-45 console and management ports 2 = USB A port 4 = 10/100/1000BASE-T ports 5 = 1/2.5G SFP ports* Note *2.5Gb uplink support is a future capability The rear panel of the X435-24T-4S switch includes: • AC power input socket The internal AC power supply operates from 100VAC to 240VAC.
ExtremeSwitching X435 Series Switch LEDs • • ExtremeSwitching Switches One USB A port LEDs to indicate port status and switch operating conditions Note The mode button has no function associated with it and is not expected to have any function associated with it in the future. For a description of the LEDs and their operation, see ExtremeSwitching X435 Series Switch LEDs on page 28.
ExtremeSwitching Switches ExtremeSwitching X435 Series Switch LEDs Figure 12: X435-8P-2T-W LEDs Figure 13: X435-24T/24P LEDs The X435 front panel LEDs behave as follows: Table 5: X435 System LEDs LED Color/State Port State Power Solid Green Switch power on Off Switch power off Solid Green OOB Link Off OOB Link down Solid Green Use not defined in 30.5 Off Use not defined in 30.5 Solid Red Use not defined in 30.5 Off Use not defined in 30.
ExtremeSwitching Switches ExtremeSwitching X440-G2 Series Switches Table 6: X435 Port LEDs (continued) Color/State Port State Blinking amber Link is OK and transmitting packets; port is powered Off No link, or disabled port; port is powered Table 7: X435-8P-2T-W PD Powered Port LEDs (Ports 9 and 10) Color/State Port State Solid green Link is up, not receiving POE power Blinking Green Traffic activity, not receiving POE power Solid Amber Link is up, receiving POE power, no traffic Blinking am
Security ExtremeSwitching Switches • • • • ExtremeSwitching X440-G2-48t-10GE4-DC switch ExtremeSwitching X440-G2-12t8fx-GE4 switch ExtremeSwitching X440-G2-24fx-GE4 switch ExtremeSwitching X440-G2-24t-GE4 switch Most X440-G2 switches support both half-duplex and full-duplex communication over 10/100/1000BASE-T ports. For details, see the "Switch Ports and Slots" topics for the individual base models. All models come equipped with four ports of SFP 1 GbE resident on either the faceplate or rear panel.
Operating Temperatures ExtremeSwitching Switches On X440-G2 switches, SummitStack-V is compatible with X450-G2 and X460-G2 switches with 10 Gb uplinks and with X620, and X670-G2 switches running the same version of ExtremeXOS. SummitStackV enabled 10 GbE ports must be physically direct-connected. Note The SFP+ stacking ports on the base X440-G2 switches are 1 Gb Ethernet ports, not 10 Gb Ethernet ports.
ExtremeSwitching Switches ExtremeSwitching X440-G2-12t-10GE4 Switch Ports and Slots ExtremeSwitching X440-G2-12t-10GE4 Switch Ports and Slots The ExtremeSwitching X440-G2-12t-10GE4 switch ports and slots include: • 12 front panel 10/100/1000BASE-T ports (RJ45), all of which support both half-duplex and fullduplex communication. • Four unpopulated 1GBASE-X SFP+ ports that can be used as either 1Gb ports or 10Gb ports, where the 10Gb configuration requires an upgrade through additional licensing.
ExtremeSwitching X440-G2-12p-10GE4 Switch Ports and Slots 1 = Redundant power input ExtremeSwitching Switches 3 = AC power input socket 2 = Grounding lug ExtremeSwitching X440-G2-12p-10GE4 Switch Ports and Slots The ExtremeSwitching X440-G2-12p-10GE4 switch ports and slots include: • 12 front panel PoE+ ports of 10/100/1000BASE-T. Both half-duplex and full-duplex communication are supported on all 12 ports.
ExtremeSwitching Switches ExtremeSwitching X440-G2-24t-10GE4 Switch Ports and Slots Figure 17: ExtremeSwitching X440-G2-12p-10GE4 Rear Panel 1 = Redundant power input 3 = AC power input socket 2 = Grounding lug ExtremeSwitching X440-G2-24t-10GE4 Switch Ports and Slots The ExtremeSwitching X440-G2-24t-10GE4 switch ports and slots include: • 24 front panel ports of 10/100/1000BASE-T (RJ45). Both half-duplex and full-duplex communication are supported on ports 1 through 16.
ExtremeSwitching X440-G2-24x-10GE4 Switch Ports and Slots ExtremeSwitching Switches 1 = Stack number indicator 4 = 10/100/1000BASE-T copper ports 2 = Console port/Ethernet management port 5 = 1000BASE-X SFP combination ports 3 = USB port (active with ExtremeXOS version 22.
ExtremeSwitching Switches ExtremeSwitching X440-G2-24p-10GE4 Switch Ports and Slots 1 = Stack number indicator 4 = 1GBASE-X SFP ports 2 = Console port/Ethernet management port 5 = 10/100/1000BASE-T combination ports 3 = USB port (active with ExtremeXOS version 22.
ExtremeSwitching X440-G2-48t-10GE4 Switch Ports and Slots ExtremeSwitching Switches Figure 22: ExtremeSwitching X440-G2-24p-10GE4 Front Panel 1 = Stack number indicator 4 = 10/100/1000BASE-T copper ports 2 = Console port/Ethernet management port 5 = 1GBASE-X SFP combination ports 3 = USB port (active with ExtremeXOS version 22.
ExtremeSwitching Switches ExtremeSwitching X440-G2-48p-10GE4 Switch Ports and Slots • Serial console port implemented as an RJ45 connector used to connect a terminal and perform local management. • • One front panel USB 2.0 port, operational on switches running ExtremeXOS version 22.2 or later. One rear redundant power supply connector.
ExtremeSwitching X440-G2-24t-10GE4-DC Switch Ports and Slots ExtremeSwitching Switches ports or two 10Gb ports and two stack ports. In the latter configuration, an additional license would be required for the 10Gb non-stacking ports. • • • • • Two 1GbE copper combination ports that can be upgraded to 10Gb Ethernet. Ethernet management port (10/100/1000BASE-T). Serial console port implemented as an RJ45 connector used to connect a terminal and perform local management. One front panel USB 2.
ExtremeSwitching Switches • ExtremeSwitching X440-G2-24t-10GE4-DC Switch Ports and Slots Four unpopulated rear panel 1GBASE-X SFP+ ports that can be used as either 1Gb ports or 10Gb ports, where the 10Gb configuration requires an upgrade through additional licensing.. Alternately, you can convert two of the ports to stacking ports using the enable stackingsupport command. Doing so would provide you with the option of two 1Gb ports and two stack ports or two 10Gb ports and two stack ports.
ExtremeSwitching X440-G2-48t-10GE4-DC Switch Ports and Slots ExtremeSwitching Switches ExtremeSwitching X440-G2-48t-10GE4-DC Switch Ports and Slots The ExtremeSwitching X440-G2-48t-10GE4-DC switch ports and slots include: • 48 front panel ports of 10/100/1000BASE-T (RJ45). Both half-duplex and full-duplex communication are supported on ports 1 through 16 and 25 through 40. The rest of the ports are fullduplex only. • • Four unpopulated front panel 1GBASE-X SFP combination ports.
ExtremeSwitching Switches ExtremeSwitching X440-G2-12t8fx-GE4 Switch Ports and Slots 1 = SFP Ports upgradeable to 10GBASE-X 4 = DC power connector panel 2 = 1GBASE-T combination ports upgradeable to 10GBASE-T 5 = Grounding lug 3 = Redundant power input ExtremeSwitching X440-G2-12t8fx-GE4 Switch Ports and Slots The ExtremeSwitching X440-G2-12t8fx-GE4 switch ports and slots include: • 12 front panel 10/100/1000BASE-T ports, all of which support both half-duplex and full-duplex communication.
ExtremeSwitching X440-G2-24fx-GE4 Switch Ports and Slots ExtremeSwitching Switches Figure 33: ExtremeSwitching X440-G2-12t8fx-GE4 Rear Panel 1 = Redundant power input 3 = AC power input socket 2 = Grounding lug ExtremeSwitching X440-G2-24fx-GE4 Switch Ports and Slots The ExtremeSwitching X440-G2-24fx-GE4 switch ports and slots include: • 24 front panel 100BASE-FX LC connectors. Note The LC connectors are transceivers with an LC interface. • • • • • Four unpopulated front panel 1GBASE-X SFP ports.
ExtremeSwitching Switches ExtremeSwitching X440-G2-24t-GE4 Switch Ports and Slots 1 = Stack number indicator 4 = 100BASE-FX LC connectors 2 = Console port/Ethernet management port 5 = 1GBASE-X SFP ports 3 = USB port (active with ExtremeXOS version 22.
ExtremeSwitching X440-G2 Series Switch LEDs ExtremeSwitching Switches Figure 37: ExtremeSwitching X440-G2-24t-GE4 Rear Panel 1 = Grounding lug 3 = Redundant power input 2 = 1GBASE-X SFP ports 4 = AC power input socket ExtremeSwitching X440-G2 Series Switch LEDs The following sections describe the meanings of the LEDs on the ExtremeSwitching X440-G2 series switches.
ExtremeSwitching X450-G2 Series Switches ExtremeSwitching Switches Table 9: X440-G2 Front Panel LEDs (continued) Label or Type Color/State Meaning Ethernet Management Port Blinking green (left) Activity on the indicated port Link OK Off (left) Activity on the indicated port Steady green (right) Link OK Off (right) No link, or port disabled Steady green Link OK Blinking green Activity on the indicated port Off No link, or port disabled Other ports Table 10: Additional Port LED Meanings f
ExtremeSwitching X450-G2-24t-GE4 Switch Ports and Slots ExtremeSwitching Switches or four ports of SFP 1 Gb Ethernet on the front panel. Each model includes two dedicated stacking ports on the rear panel. All X450-G2 ports are full-duplex. They do not support half-duplex operation.
ExtremeSwitching X450-G2-24t-10GE4 Switch Ports and Slots ExtremeSwitching Switches • Serial console port implemented as an RJ45 connector used to connect a terminal and perform local management. • • • • One fixed power supply. One rear redundant power supply connector. One rear slot for fan module with front-to-back airflow. Two dedicated QSFP-form factor 21 Gb stacking ports on the rear panel.
ExtremeSwitching X450-G2-48t-GE4 Switch Ports and Slots • • One rear slot for fan module with front-to-back airflow. Two dedicated QSFP-form factor 21 Gb stacking ports on the rear panel. 4 3 MGT ExtremeSwitching Switches FAN P1 P2 CLK S S2 1 2 3 4 5 6 7 8 9 10 11 12 13 14 5 15 16 17 18 19 20 21 22 23 24 25 26 27 28 ACT LINK Management STACK NO.
ExtremeSwitching X450-G2-48t-10GE4 Switch Ports and Slots ExtremeSwitching Switches 3 MGT FAN 4 P1 P2 Management CLK S1 S2 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 5 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 ACT LINK STACK NO.
ExtremeSwitching X450-G2-24p-GE4 Switch Ports and Slots 3 MGT FAN ExtremeSwitching Switches 4 P1 P2 Management CLK S1 S2 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 5 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 ACT LINK STACK NO.
ExtremeSwitching X450-G2-24p-10GE4 Switch Ports and Slots ExtremeSwitching Switches 4 3 MGT FAN P1 P2 CLK S S2 1 2 3 4 5 6 7 8 9 10 11 12 13 14 5 15 16 17 18 19 20 21 22 23 24 25 26 27 28 ACT LINK Management STACK NO.
ExtremeSwitching X450-G2-48p-GE4 Switch Ports and Slots 4 3 MGT FAN ExtremeSwitching Switches P1 P2 CLK S S2 1 2 3 4 5 6 7 8 9 10 11 12 13 14 5 15 16 17 18 19 20 21 22 23 24 25 26 27 28 ACT LINK Management STACK NO. 1 2 Figure 48: X450-G2-24p-10GE4 Front Panel 1 = Stack number indicator 4 = PoE+ 10/100/1000BASE-T ports 2 = Console port/Ethernet management port 5 = SFP+ 10GBASE-X ports 3 = USB port 1 2 3 4 PS U-1 SummitStack-V84 IN.OK OUT.
ExtremeSwitching X450-G2-48p-10GE4 Switch Ports and Slots ExtremeSwitching Switches 3 MGT FAN 4 P1 P2 Management CLK S1 S2 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 5 26 27 28 29 31 30 32 33 34 35 36 37 38 39 40 41 42 43 45 44 46 47 48 49 50 51 52 ACT LINK STACK NO.
ExtremeSwitching X450-G2 Series Switch LEDs ExtremeSwitching Switches 3 MGT FAN 4 P1 P2 Management CLK S1 S2 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 5 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 45 44 46 47 48 49 50 51 52 ACT LINK STACK NO.
ExtremeSwitching Switches ExtremeSwitching X450-G2 Series Switch LEDs Table 12: X450-G2 Front Panel LEDs (continued) Label or Type Color/State Meaning FAN Steady green Normal operation Blinking amber Failure Off No power Steady green Normal operation Steady amber Power is attached, but no power is on Blinking amber Power failure Off No power attached Steady green Link OK Blinking green Activity on the indicated port Off No link or port disabled P1, P2 (Power Supply) Ethernet Port
ExtremeSwitching X460-G2 Series Switches ExtremeSwitching Switches ExtremeSwitching X460-G2 Series Switches The X460-G2 series switches provide 24 or 48 Ethernet ports that deliver high-density fast Ethernet or Gigabit Ethernet connectivity using fixed BASE-T and BASE-X ports. In addition, some models offer either 24 or 48 PoE+ ports. Ports 25-48 on the X460-G2-24t-24ht-10GE4 and X460-G2-24p-24hp-10GE4 models can operate in half-duplex mode. All other X460-G2 ports are full-duplex.
ExtremeSwitching Switches Versatile Interface Module (VIM) Options for X460-G2 Series Switches The following X460-G2 switch models require ExtremeXOS version 22.2.1 or later: • • • ExtremeSwitching X460-G2-24t-24ht-10GE4 ExtremeSwitching X460-G2-24p-24hp-10GE4 ExtremeSwitching X460-G2-16mp-32p-10GE4 All other X460-G2 switch models are compatible with ExtremeXOS version 15.6.1.4 or later, or version 21.1.1 or later.
ExtremeSwitching X460-G2-24t-10GE4 Switch Ports and Slots • • • One front panel USB port. Ethernet management port 1 x 10/100/1000BASE-T. Serial console port implemented as an RJ45 connector used to connect a terminal and perform local management. • • • • One rear panel VIM slot. One rear panel TM-CLK (clock) slot. Rear dual PSU power slots with front-to-back or back-to-front airflow. One rear slot for fan module with front-to-back or back-to-front airflow.
ExtremeSwitching X460-G2-24x-10GE4 Switch Ports and Slots ExtremeSwitching Switches • Serial console port implemented as an RJ45 connector used to connect a terminal and perform local management. • • • • One rear panel VIM slot. One rear panel TM-CLK (clock) slot. Rear dual PSU power slots with front-to-back or back-to-front airflow. One rear slot for fan module with front-to-back or back-to-front airflow.
ExtremeSwitching X460-G2-24p-GE4 Switch Ports and Slots ExtremeSwitching Switches • Serial console port implemented as an RJ45 connector used to connect a terminal and perform local management. • • • • One rear panel VIM slot. One rear panel TM-CLK (clock) slot. Rear dual PSU power slots with front-to-back or back-to-front airflow. One rear slot for fan module with front-to-back or back-to-front airflow.
ExtremeSwitching X460-G2-24p-10GE4 Switch Ports and Slots ExtremeSwitching Switches • • • • One rear panel VIM slot. One rear panel TM-CLK (clock) slot. Rear dual PSU power slots with front-to-back or back-to-front airflow. One rear slot for fan module with front-to-back or back-to-front airflow.
ExtremeSwitching X460-G2-48t-GE4 Switch Ports and Slots • • • One rear panel TM-CLK (clock) slot. Rear dual PSU power slots with front-to-back or back-to-front airflow. One rear slot for fan module with front-to-back or back-to-front airflow.
ExtremeSwitching X460-G2-48t-10GE4 Switch Ports and Slots ExtremeSwitching Switches 3 MGT FAN 4 P1 P2 CLK S1 5 S2 49 50 51 52 ACT LINK SYNC-E Input Ports X460-G2- 48t-GE4 SYNC-E Inputs 1 Gb E SFP 1 2 Figure 64: X460-G2-48t-GE4 Front Panel 1 = Stack number indicator 4 = 10/100/1000BASE-T ports 2 = Console port/Ethernet management port 5 = SFP 1GBASE-X ports 3 = USB port 1 2 3 4 5 Figure 65: X460-G2-48t-GE4 Rear Panel 1 = TM-CLK (clock) slot cover 4 = Blank power supply cover 2 =
ExtremeSwitching X460-G2-24t-24ht-10GE4 Switch Ports and Slots 3 MGT FAN ExtremeSwitching Switches 4 P1 P2 CLK S1 5 S2 49 50 51 52 ACT LINK SYNC-E Input Ports X460-G2- 48t-10GE4 SYNC-E Inputs 1 0 Gb E SFP + 1 2 Figure 66: X460-G2-48t-10GE4 Front Panel 1 = Stack number indicator 4 = 10/100/1000BASE-T ports 2 = Console port/Ethernet management port 5 = SFP+ 10GBASE-X ports 3 = USB port 1 2 3 4 5 Figure 67: X460-G2-48t-10GE4 Rear Panel 1 = TM-CLK (clock) slot cover 4 = Blank power
ExtremeSwitching Switches ExtremeSwitching X460-G2-48x-10GE4 Switch Ports and Slots Figure 68: X460-G2-24t-24ht-10GE4 Front Panel 1 = Stack number indicator 4 = 10/100/1000BASE-T ports 2 = Console port/Ethernet management port 5 = 10/100/1000BASE-T ports with half-duplex 3 = USB port 6 = SFP+ 10GBASE-X ports Figure 69: X460-G2-24t-24ht-10GE4 Rear Panel 1 = TM-CLK (clock) slot cover 4 = Blank power supply cover 2 = VIM slot cover 5 = Power supply slot 3 = Fan module slot Note It is not possible
ExtremeSwitching Switches Summit X460-G2-48p-GE4 Switch Ports and Slots • • Rear dual PSU power slots with front-to-back or back-to-front airflow. One rear slot for fan module with front-to-back or back-to-front airflow.
ExtremeSwitching X460-G2-48p-10GE4 Switch Ports and Slots ExtremeSwitching Switches 1 MGT FAN 4 P1 P2 CLK S1 5 49 S2 50 51 52 ACT LINK USB SYNC-E Input Ports X4 6 0 -G2 -4 8 p-GE4 SYNC-E Inputs 1 0 Gb E SFP + 2 3 Figure 72: Summit X460-G2-48p-GE4 Front Panel 1 = USB port 4 = PoE+ 10/100/1000BASE-T ports 2 = Stack number indicator 5 = SFP 1GBASE-X ports 3 = Console port/Ethernet management port 1 2 3 4 5 Figure 73: Summit X460-G2-48p-GE4 Rear Panel 1 = TM-CLK (clock) slot cover
ExtremeSwitching X460-G2-24p-24hp-10GE4 Switch Ports and Slots 1 MGT FAN ExtremeSwitching Switches 4 P1 P2 CLK S1 5 49 S2 50 51 52 ACT LINK USB SYNC-E Input Ports X4 6 0 -G2 -4 8 p-10GE4 SYNC-E Inputs 1 0 Gb E SFP + 2 3 Figure 74: X460-G2-48p-10GE4 Front Panel 1 = USB port 4 = PoE+ 10/100/1000BASE-T ports 2 = Stack number indicator 5 = SFP+ 10GBASE-X ports 3 = Console port/Ethernet management port 1 2 3 4 5 Figure 75: X460-G2-48p-10GE4 Rear Panel 1 = TM-CLK (clock) slot cover 4
ExtremeSwitching Switches ExtremeSwitching X460-G2-16mp-32p-10GE4 Switch Ports and Slots Figure 76: X460-G2-24p-24hp-10GE4 Front Panel 1 = Stack number indicator 4 = PoE+ 10/100/1000BASE-T ports 2 = Console port/Ethernet management port 5 = PoE+ 10/100/1000BASE-T ports with half-duplex 3 = USB port 6 = SFP+ 10GBASE-X ports Figure 77: X460-G2-24p-24hp-10GE4 Rear Panel 1 = TM-CLK (clock) slot cover 4 = Blank power supply cover 2 = VIM slot cover 5 = Power supply slot 3 = Fan module slot Note It i
ExtremeSwitching X460-G2 Series Switch LEDs • • ExtremeSwitching Switches Rear dual PSU power slots with front-to-back or back-to-front airflow One rear slot for fan module with front-to-back or back-to-front airflow Figure 78: X460-G2-16mp-32p-10GE4 Front Panel 1 = USB port 4 = PoE+ 100/1000/2.
ExtremeSwitching X460-G2 Series Switch LEDs ExtremeSwitching Switches Table 15: X460-G2 Front Panel LEDs (continued) Label or Type Color/State Meaning S1, S2 (Stack Management) Steady green Link OK on the indicated stacking port Blinking green Activity on the indicated stacking port FAN Steady green Normal operation Blinking amber Failure Off No power Steady green Normal operation Steady amber Non-PoE models: PSU present, but no input power PoE models: Not supported Blinking amber Powe
ExtremeSwitching Switches ExtremeSwitching X465 Series Switches • • X460-G2-24p-24hp-10GE4 X460-G2-16mp-32p-10GE4 Table 16: Additional Port LED Meanings for PoE Switches Label or Type Color/State All front panel ports 1-24 Steady green or 1-48 Steady amber Meaning Link is OK; port is not powered Link is OK; port is powered; no traffic Blinking green Link is OK and transmitting packets; port is not powered Blinking amber Link is OK and transmitting packets; port is powered Slow blinking amber No
Management ExtremeSwitching Switches • • • ExtremeSwitching X465-48T Switch Ports and Slots on page 79 ExtremeSwitching X465-48W Switch Ports and Slots on page 80 ExtremeSwitching X465i-48W Switch Ports and Slots on page 80 Figure 80: X465 Series Switch: Front Panel (48-port model shown) 1 = Mode Button and System LEDs 3 = USB A ports 5 = Access ports 2 = USB micro B management port 4 = Stacking ports 6 = VIM slot, shown with VIM installed Figure 81: X465 Series Switch: Rear Panel 1 = Grounding lu
ExtremeSwitching Switches Cooling be echoed to both the USB console and the rear panel RJ45 serial port; however, no user input will be accepted from the rear panel port. Cooling Each base model is available with front-to-back cooling. Switch cooling is provided by replaceable fan modules. The available fan module uses airflow from front to back. Two modular power supply slots accommodate AC power supplies. Power supplies have integrated cooling fans that operate independently of the switch fan.
Stacking ExtremeSwitching Switches See Solid-state Drives on page 159 for more information. Stacking Each X465 unit comes equipped with two 40GbE stacking ports using a QSFP interface, located on the front panel of the switch. Standard 40 Gb Ethernet Optics and passive and active cables can be used in the QSFP ports for stacking X465s together using SummitStack-V160. Stacking cables for X465 switches are ordered separately.
ExtremeSwitching X465-24MU-24W Switch Ports and Slots ExtremeSwitching Switches ExtremeSwitching X465-24MU-24W Switch Ports and Slots The front panel of the ExtremeSwitching X465-24MU-24W switch includes: • • 24 100Mb/1/2.5/5Gb ports with 802.3bt Type 3 PoE (60W) 24 10/100/1000Mb full/half duplex MACsec capable ports with 802.3bt Type 4 PoE (90W) capable ports Note Ports 1-24 offer multi-rate with 60W PoE support. Ports 25-48 support 90 PoE, but do not offer multi-rate support.
ExtremeSwitching Switches • • ExtremeSwitching X465-24XE Switch Ports and Slots 2 USB A ports 1 USB micro B management port The rear panel of the ExtremeSwitching X465-24W switch includes: • • • 2 fan modules 2 unpopulated PSU slots RJ-45 console and management ports ExtremeSwitching X465-24XE Switch Ports and Slots The front panel of the ExtremeSwitching X465-24XE switch includes: • • • • • 24 1/10GbE SFP+ MACsec and LRM capable ports 1 VIM5 slot Stacking ports 2 USB A ports 1 USB micro B manageme
ExtremeSwitching X465-48W Switch Ports and Slots • • ExtremeSwitching Switches 2 USB A ports 1 USB micro B management port The rear panel of the ExtremeSwitching X465-48T switch includes: • • • 3 fan modules 2 unpopulated PSU slots RJ-45 console and management ports ExtremeSwitching X465-48W Switch Ports and Slots The front panel of the ExtremeSwitching X465-48W switch includes: • • • • • 48 10/100/1000Mb full/half duplex MACsec capable ports with 802.
ExtremeSwitching Switches ExtremeSwitching X465 Series Switch LEDs ExtremeSwitching X465 Series Switch LEDs ExtremeSwitching X465 Front Panel Port LEDs, as described in Table 18: Table 18: X465 Port LEDs LED Color/State SYStem status LED (Legacy MGMT function) Green Flash slowly POST Passed, normal operation, blinks on standalone switch, stack master, and backup nodes in a stack; off for standby nodes in a stack PSU status LEDs P1/P2 Port State Green Blinking POST in progress Amber Blinking POST
ExtremeSwitching X465 Series Switch LEDs ExtremeSwitching Switches Port LEDs in Default (SYS) Mode In the default SYS mode, SPD and STK are OFF, and the port status will display as described in Table 19: Table 19: Port LEDs in SYS Mode (default) Color/State Meaning Steady green Link is OK; port is not powered Steady amber Link is OK; port is powered; no traffic Blinking green Link is OK and transmitting packets; port is not powered Blinking amber Link is OK and transmitting packets; port is power
ExtremeSwitching X590 Series Switches ExtremeSwitching Switches ExtremeSwitching X590 Series Switches The X590 series switch provides 10 Gb datacenter aggregation with 100 Gb uplinks, ideally suited for use as a "leaf" switch in conjunction with "spine" switches like the X690 and X870 series.
Partitioning X590 Switch Ports into Data Lanes ExtremeSwitching Switches Front-panel ports on X590 series switches can be configured for either 100-gigabit or 40-gigabit mode, and each port can be partitioned into data lanes through the use of split cables. This yields a total of up to 36 ports for each switch. Port numbers are assigned depending on whether the physical ports are partitioned into data lanes. To illustrate, Figure 83 shows the physical ports on the X590 front panel that can be partitioned.
ExtremeSwitching X590-24t-1q-2c Switch Ports and Slots ExtremeSwitching Switches Table 22: Port Number Assignments (in 40 Gb Mode) (continued) Physical Port Number (on Switch) Has these Assigned Port Number(s).... ...with this Port Speed 33-36 33 40 Gb 33,34,35,36 10 Gb Table 23: Port Number Assignments (in 100 Gb Mode) Physical Port Number (on Switch) Has these Assigned Port Number(s).... ...
ExtremeSwitching X590-24x-1q-2c Switch Ports and Slots • • ExtremeSwitching Switches Rear dual PSU power slots with front-to-back or back-to-front airflow. Four rear slots for fan modules with front-to-back or back-to-front airflow. Note Two additional fan slots are unused. Do not remove the cover plate from the unused slots.
ExtremeSwitching X590 Series Switch LEDs ExtremeSwitching Switches • • • • • Ethernet management port (10/100/1000BASE-T). Serial console port implemented as an RJ45 connector used to connect a terminal and perform local management. Front panel USB port. Rear dual PSU power slots with front-to-back or back-to-front airflow. Four rear slots for fan modules with front-to-back or back-to-front airflow. Note Two additional fan slots are unused. Do not remove the cover plate from the unused slots.
ExtremeSwitching X590 Series Switch LEDs ExtremeSwitching Switches Table 24: X590 Front Panel System LEDs Label or Type Color/State Meaning MGMT (Management) Steady green Normal operation Power-on self test (POST) passed Blinking green POST or diagnostics in progress Blinking amber Any of the following: • POST failed • System overheated • Power supply failed • Fan unit failed Off No power Blinking green Management port packet transmitting or receiving Off No packet transmitting or receiving
ExtremeSwitching X620 Series Switches ExtremeSwitching Switches Table 25: X590 Front Panel Port LEDs (continued) Location Speed Color/State Meaning Ports 29-36 100Gb/40Gb (no partition) Steady white Link OK Blinking white Port transmitting or receiving Off No link, or port disabled Steady green Link OK Blinking green Port transmitting or receiving Off No link, or port disabled 50Gb/25Gb/10Gb (partitioned) ExtremeSwitching X620 Series Switches The X620 switches are compact 10 Gb Ethernet
ExtremeSwitching Switches ExtremeSwitching X620-8t-2x Switch Ports and Slots • One 10/100/1000BASE-T Ethernet management port. Additional ports on various models include the following: Table 26: X620 Series Switches and Port Types 100Mb/1 Gb/10GBASE-T X620-8t-2x 100Mb/1 Gb/2.
ExtremeSwitching Switches • • ExtremeSwitching X620-10x Switch Ports and Slots One front panel USB 2.0 port, operational on switches running ExtremeXOS version 22.2 or later. One rear redundant power supply connector. Figure 88: ExtremeSwitching X620-8t-2x Front Panel 1 = Stack number indicator 4 = 100Mb/1 Gb/10GBASE-T ports 2 = Console port/Ethernet management port 5 = 100Mb/1 Gb/10GBASE-X SFP+ ports 3 = USB port (active with ExtremeXOS version 22.
ExtremeSwitching Switches ExtremeSwitching X620-16t Switch Ports and Slots • • • Ethernet management port (10/100/1000BASE-T). One front panel USB 2.0 port, operational on switches running ExtremeXOS version 22.2 or later. One rear redundant power supply connector. Figure 90: ExtremeSwitching X620-10x Front Panel 1 = Stack number indicator 3 = USB port (active with ExtremeXOS version 22.
ExtremeSwitching Switches • • • • ExtremeSwitching X620-16x Switch Ports and Slots Ethernet management port (10/100/1000BASE-T). One front panel USB 2.0 port, operational on switches running ExtremeXOS version 22.2 or later. One rear slot for fan module with front-to-back or back-to-front airflow. Rear dual PSU power slots with front-to-back or back-to-front airflow.
ExtremeSwitching Switches ExtremeSwitching X620-16p Switch Ports and Slots Figure 94: ExtremeSwitching X620-16x Front Panel 1 = Stack number indicator 3 = USB port (active with ExtremeXOS version 22.
ExtremeSwitching Switches ExtremeSwitching X620 Series Switch LEDs Figure 96: ExtremeSwitching X620-16p Front Panel 1 = Stack number indicator 4 = 100Mb/1 Gb/2.
ExtremeSwitching Switches ExtremeSwitching X670-G2 Series Switches Table 27: X620 Front Panel LEDs (continued) Label or Type Color/State Meaning S1, S2 (Stack Management) Steady green Link OK on the indicated stacking port Blinking green Activity on the indicated stacking port FAN Steady green Normal operation Blinking amber Failure Off No power Power Supply Unit (PSU) Steady green Blinking amber Input or output power failure Off Not present Redundant Power Supply Steady green (RPS) Bli
ExtremeSwitching Switches ExtremeSwitching X670-G2 Series Switches Each base model is available with either front-to-back or back-to-front cooling. There is no operational difference between these switch versions. The X670-G2-48x-4q and X670-G2-72x have SFP+ ports that support dual interface speeds of Gigabit Ethernet and 10-gigabit Ethernet. SFP+ ports can accept both gigabit SFP and 10 gigabit SFP+, and depending upon the pluggable optics you choose, SFP+ ports can work in both modes.
ExtremeSwitching X670-G2-48x-4q Switch Ports and Slots ExtremeSwitching Switches ExtremeSwitching X670-G2-48x-4q Switch Ports and Slots X670-G2-48x-4q switch ports and slots include: • 48 fixed autosensing 10GBASE-X SFP+ ports (ports 1-48) that provide 10 Gbps high-density fiber connectivity. Two of these ports are configurable as stacking ports.
ExtremeSwitching X670-G2-72x Switch Ports and Slots ExtremeSwitching Switches ExtremeSwitching X670-G2-72x Switch Ports and Slots X670-G2-72x switch ports and slots include: • 72 fixed autosensing 10GBASE-X SFP+ ports (ports 1-72) that provide 10 Gbps high-density fiber connectivity. Two of these ports are configurable as stacking ports. • • Ethernet management port (10/100/1000BASE-T). Serial console port implemented as an RJ45 connector used to connect a terminal and perform local management.
ExtremeSwitching Switches ExtremeSwitching X690 Series Switches Table 29: X670-G2 Front Panel LEDs Label or Type Color/State Meaning M (Management) Slow blinking green (1 Hz) Normal operation Fast blinking green (2 Hz) Power-on self test (POST) in progress or Switch diagnostics are running Steady green POST passed: system is booting image Blinking amber System is disabled: POST failed or system overheated Off No external power is attached Steady green Normal operation.
Partitioning X690 Switch Ports into Data Lanes ExtremeSwitching Switches The X690 series switches include the following base models: • • ExtremeSwitching X690-48t-2q-4c switch ExtremeSwitching X690-48x-2q-4c switch Front-panel Ethernet ports can provide 100 Gb Ethernet connectivity using installable QSFP28 and QSFP+ optical modules. The front panel of each X690 switch provides the following: • Two QSFP+ based 40 Gb ports.
Partitioning X690 Switch Ports into Data Lanes ExtremeSwitching Switches Port numbers are assigned depending on whether the physical ports are partitioned into data lanes. To illustrate, Figure 102 shows the physical ports on the X690 front panel that can be partitioned. Table 31 on page 102 and Table 32 on page 103 detail how port numbers are assigned for each of the physical ports.
ExtremeSwitching X690-48t-2q-4c Switch Ports and Slots ExtremeSwitching Switches Table 31: Port Number Assignments (in 40 Gb Mode) (continued) Physical Port Number (on Switch) Has these Assigned Port Number(s).... ...with this Port Speed 69-72 69 40 Gb 69,70,71,72 10 Gb Table 32: Port Number Assignments (in 100 Gb Mode) Physical Port Number (on Switch) Has these Assigned Port Number(s).... ...
ExtremeSwitching X690-48x-2q-4c Switch Ports and Slots ExtremeSwitching Switches • Serial console port implemented as an RJ45 connector used to connect a terminal and perform local management. • • • Front panel USB port. Rear dual PSU power slots with front-to-back or back-to-front airflow. Six rear slots for fan modules with front-to-back or back-to-front airflow.
ExtremeSwitching X690 Series Switch LEDs ExtremeSwitching Switches • Serial console port implemented as an RJ45 connector used to connect a terminal and perform local management. • • • Front panel USB port. Rear dual PSU power slots with front-to-back or back-to-front airflow. Six rear slots for fan modules with front-to-back or back-to-front airflow.
ExtremeSwitching X690 Series Switch LEDs ExtremeSwitching Switches Table 33: X690 Front Panel System LEDs Label or Type Color/State Meaning MGMT (Management) Steady green Normal operation Power-on self test (POST) passed Blinking green POST or diagnostics in progress Blinking amber Any of the following: • POST failed • System overheated • Power supply failed • Fan unit failed Off No power Blinking green Management port packet transmitting or receiving Off No packet transmitting or receiving
ExtremeSwitching Switches ExtremeSwitching X695 Switch Table 34: X690 Front Panel Port LEDs (continued) Location Speed Color/State Meaning Ports 57-72 100Gb/40Gb (no partition) Steady white Link OK Blinking white Port transmitting or receiving Off No link, or port disabled Steady green Link OK Blinking green Port transmitting or receiving Off No link, or port disabled 50Gb/25Gb/10Gb (partitioned) ExtremeSwitching X695 Switch The ExtremeSwitching X695 switch offers versatile and efficien
ExtremeSwitching Switches ExtremeSwitching X695 Switch 2 = QSFP28 Ethernet ports 4 = Console port: RJ45 6 = Management Set sliding button* *The Management Set sliding button can be slid to the right in order to free the Management Set for removal. The rear panel of the X695 switch includes: • • Two power supply bays for 750 W AC or DC power supplies. Six bays for replaceable fan modules.
Partitioning or Channelizing Switch Ports into Data Lanes ExtremeSwitching Switches Partitioning or Channelizing Switch Ports into Data Lanes Six of the eight 100GbE front-panel ports operate in either 100-gigabit or 40-gigabit mode. Two of the ports can each be partitioned into data lanes through the use of breakout cables. This means that a given physical port can correspond to either two or four logical ports.
ExtremeSwitching X695 Switch LEDs ExtremeSwitching Switches Figure 109: X695 Switch LED The X695 front panel LEDs behave as follows: Table 36: X695 System LEDs LED indication Color Behavior Description SYS Green Blinking POST Passed, normal operation Light off Power Off Blinking • • • • Solid POST or Diagnostics in progress Solid Power On Light Off Power Off Solid Management port link up Light off No link up or port disabled Blinking Management port packet transmitting or receiving
ExtremeSwitching Switches ExtremeSwitching X695 Switch LEDs Table 36: X695 System LEDs (continued) LED indication Color Behavior Description Fantray 1 (Back) Fantray 2 (Back) Fantray 3 (Back) Fantray 4 (Back) Fantray 5 (Back) Fantray 6 (Back) Green Solid All diagnostics pass and the module is operational Red Solid Failure, module not receiving power, not present FAN (front faceplate) Green Solid All modules are operational Amber Blinking Failure in at least one of the modules or POST in p
ExtremeSwitching Switches ExtremeSwitching X870 Series Switches Location Speed LED Partitionable Ports 51-54, 56-59 All LED Indication Color/State Description 50 Gbps (partitioned) 51, 53 Solid green (1, 3) (2, 4 - Off) The port has link Blinking green Port is transmitting or receiving 10/25Gbps (partitioned) Solid green (1, 2, 3, 4) The port has link Blinking green (1, 2, 3, 4) Port is transmitting or receiving 40 Gbps/ 100Gbps (no partition) Solid green (1) (2, 3, 4 - Off) The port ha
ExtremeSwitching Switches Partitioning X870 Switch Ports into Data Lanes Port numbers are assigned depending on whether the physical ports are partitioned into data lanes. To illustrate, Figure 110 shows a portion of the switch's front panel along with the port-number assignments for physical ports P1 through P8. Figure 110: X870 Port Numbers for 100G Mode and 40G Modes when Ports are Partitioned into Data Lanes In 40-gigabit mode, each port can be partitioned into four 10-gigabit data lanes.
ExtremeSwitching Switches Management Management A serial console port on the front panel of the X870 series switch allows you to connect a terminal and perform local management. An Ethernet management port can be used to connect the system to a parallel management network for administration. Alternatively, you can use an Ethernet cable to connect this port directly to a laptop to view and locally manage the switch configuration. The Ethernet management port supports 10/100/1000 Mbps speeds.
ExtremeSwitching Switches • • • ExtremeSwitching X870-96x-8c Switch Ports and Slots USB console port. RJ45 RS-232c serial console port used to connect a terminal and perform local management. LEDs to indicate port status and switch operating conditions. For a description of the LEDs and their operation, see ExtremeSwitching X870 Series Switch LEDs on page 116.
ExtremeSwitching Switches ExtremeSwitching X870 Series Switch LEDs Using the optional Switch Port Speed License, these ports can be upgraded to unrestricted 100gigabit mode in groups of six ports per license. Up to four Switch Port Speed Licenses can be applied for each X870-96x-8c switch. • • • • • RJ45 Ethernet management port. USB port for access to external storage. USB console port. RJ45 RS-232c serial console port used to connect a terminal and perform local management.
Pluggable Interfaces for the Switches ExtremeSwitching Switches Table 37: X870 Front Panel LEDs Label or Type Color/State Meaning STAT Slow blinking green (1 Hz) Normal operation Fast blinking green (2 Hz) Power-on self test (POST) in progress or Switch diagnostics are running Steady green POST passed: system is booting image Blinking amber System is disabled: POST failed or system overheated Off No external power is attached Steady green Power on Blinking amber Power supply failure – one
Pluggable Interfaces for the Switches ExtremeSwitching Switches Extreme Networks assumes no liability for third-party optical modules. Although Extreme Networks does not block third-party optical modules, we cannot ensure that all third-party optical modules operate properly in all Extreme Networks devices. The customer assumes all risks associated with using third-party optical modules in Extreme Networks devices. For more information, refer to Extreme Networks Pluggable Transceivers Installation Guide.
Power Supplies for Use with Your Switch External Power Supplies on page 120 Replaceable Internal Power Supplies on page 130 Displaying the Status of Installed Power Supplies on page 139 Many Extreme Networks switches are shipped with an internal power supply that supplies all of the power needed for most switch operation. The internal power supply is fixed on some models and replaceable on other models. (See Replaceable Internal Power Supplies on page 130.
External Power Supplies Power Supplies for Use with Your Switch External Power Supplies The following tables list the compatible power supply models for ExtremeSwitching switches that use external power supplies for redundancy. Caution Extreme Redundant Power Supplies (RPS) do not support the ability for the RPS to be connected to an operational switch. Connecting an RPS to an operational switch can have an adverse effect on the switch.
Power Supplies for Use with Your Switch External Power Supplies Table 38: External Power Supplies for X440-G2 Series Switches (continued) Switch Model Compatible External Power Supply Model: Part Number X440-G2-24t-10GE4-DC 150 W Non-PoE Redundant Power Supply STK-RPS-150PS 150 W RPS-150XT External Power Supply Unit RPS-150XT 500 W PoE+ Redundant Power Supply Unit RPS-500p: 10923 750 W Power Supply with EPS-C2 chassis 750 W AC PSU: 10931 EPS-C2: 10936 X440-G2-48t-10GE4-DC 150 W Non-PoE Redunda
Power Supplies for Use with Your Switch EPS-C2 Redundant Power System Table 39: External Power Supplies for X450-G2 Series Switches (continued) Switch Model Compatible External Power Supply Model: Part Number X450-G2-48t-GE4 150 W Non-PoE redundant power supply STK-RPS-150PS 500 W PoE+ Redundant Power Supply Unit RPS-500p: 10923 750 W Power Supply with EPS-C2 chassis 750 W AC PSU: 10931 EPS-C2: 10936 150 W Non-PoE redundant power supply STK-RPS-150PS 500 W PoE+ Redundant Power Supply Unit RPS
EPS-C2 Redundant Power System Power Supplies for Use with Your Switch The EPS-C2 system provides redundant power for up to five switches. Redundant power connectors on the rear panel of the EPS-C2 chassis are specific to the supported switch type; a selection switch toggles between the connector type. The 750 W AC PoE PSU used on the EPS-C2 has two power rails: 12V and PoE. These two power rails are independent.
RPS-90 Redundant Power Supply Power Supplies for Use with Your Switch Dual 750 W PoE PSUs Configuration: Full Power Two 750 W PoE PSUs provide full power at 760 watts; this power level allows 15.4 watts of PoE power to all 48 ports. In this full-power configuration, the internal power supply is disabled, and therefore redundant power is not available. Triple 750 W PoE PSUs Configuration: Full Redundant Power Three 750 W PoE PSUs provide the full 760 watts of power for 15.
RPS-150XT Redundant Power Supply Power Supplies for Use with Your Switch The RPS-90 cannot be mounted in a rack. For technical specifications, refer to RPS-90 Redundant Power Supply Technical Specifications on page 466. RPS-150XT Redundant Power Supply Tip Extreme Redundant Power Supplies (RPS) do not support the ability for the RPS to be connected to an operational switch. Connecting an RPS to an operational switch can have an adverse effect on the switch.
Power Supplies for Use with Your Switch RPS-500p Redundant Power Supply 1 = 14-pin Redundant Power Supply connector See RPS-150XT Redundant Power Supply Technical Specifications on page 467 for pin locations and function. Table 42: RPS-150XT LED Status Definitions LED LED Color Status AC OK Green AC input within operational range Off No AC voltage or AC voltage is outside the operational range For technical specifications, see RPS-150XT Redundant Power Supply Technical Specifications on page 467.
STK-RPS-150PS Redundant Power Supply Power Supplies for Use with Your Switch • • Two rack mount brackets Eight flathead screws (M3x6mm) Table 43: RPS-500p LED Status Definitions Power LED Meaning Recommended Action Green, solid AC input to power supply is within specifications None Off AC input power to power supply is out of specification. 1. Check AC power cord connection to the power supply. 2. Check AC power at the power outlet. 3. Swap power cord for a known good one. 4.
STK-RPS-1005PS Redundant Power Supply • • Power Supplies for Use with Your Switch X620-8t-2x switch X620-10x switch Table 44: STK-RPS-150PS LED Status Definitions Power LED Meaning Recommended Action Green, solid AC input to power supply is within specifications None Off AC input power to power supply is out of specification. 1. Check AC power cord connection to the power supply. 2. Check AC power at the power outlet. 3. Swap power cord for a known good one. 4.
STK-RPS-1005PS Redundant Power Supply Power Supplies for Use with Your Switch Figure 118: STK-RPS-1005PS Front Panel 1 = Captive screws 4 = AC power input connector 2 = Status LEDs 5 = Handle 3 = Fans Figure 119: STK-RPS-1005PS Rear Panel 1 = 18-pin Redundant Power Supply connector Table 45: STK-RPS-1005PS LED Status Definitions LED LED Color Status AC OK Green AC input within operational range Off No AC voltage or AC voltage is outside the operational range Green Power supply successfully
Power Supplies for Use with Your Switch VX-RPS-1000 Redundant Power Supply VX-RPS-1000 Redundant Power Supply Tip Extreme Redundant Power Supplies (RPS) do not support the ability for the RPS to be connected to an operational switch. Connecting an RPS to an operational switch can have an adverse effect on the switch. It is best practice that both the switch and the RPS be powered down prior to cabling them together. Once the cabling is completed, turn on the RPS, then turn on the switch.
Power Supplies for Use with Your Switch Replaceable Internal Power Supplies In a redundant power configuration, both power supplies are fully fault-tolerant and load-sharing. You can remove one power supply without interrupting switch operation. Specific switch series and models are compatible with different power supply models, as shown in the following table: Table 47: Replaceable Internal Power Supply Compatibility Hardware Model AC Power Supplies: Part No. DC Power Supplies: Part No.
Summit 300 W AC and DC Power Supplies Power Supplies for Use with Your Switch Table 47: Replaceable Internal Power Supply Compatibility (continued) Hardware Model AC Power Supplies: Part No. DC Power Supplies: Part No. X870 switches (all models) 770 W AC-FB: 10960 770 W AC-BF: 10961 1100 W DC-FB: 10962 1100 W DC-BF: 10963 EPS-C2 RPS 750 W AC: 10931 Note AC power input cords are not provided with an AC power supply.
Summit 350 W AC Power Supplies Power Supplies for Use with Your Switch Summit 350 W AC Power Supplies Summit 350 W AC power supplies are available in the following models: • 350 W AC PSU-FB (models XN-ACPWR-350W-FB and 10953)—AC power supply with front-to-back ventilation airflow • 350 W AC PSU-BF (Model 10954)—AC power supply with back-to-front ventilation airflow Both power supplies are compatible with X460-G2 PoE switch models that have the same airflow direction as the power supply.
Power Supplies for Use with Your Switch Summit 715 W AC Power Supplies The Summit 550 W power supplies (AC and DC) have the status LEDs listed in Table 50. Table 50: Summit 550 W Power Supply LED Status Indications Position Color and State Meaning Top Power Good Steady Green +3.3VSB ok; 12 V ok; power supply is working properly. Middle Power Supply Fail Steady Amber Fault condition (for example, 3.3VSB OCP/UCP, 12V OCP/ UCP, or fan failure).
750 W AC and DC Power Supplies Power Supplies for Use with Your Switch The Summit 750 W AC power supply has the status LEDs listed in the following table. Table 52: Summit 750 W AC Power Supply LED Status Indications Label and Color State Meaning AC OK Green Off No AC input On AC input is good. Off Both DC outputs (55 V and 12 V) are bad or not enabled. Blinking One output is enabled and good; the second output is bad or not enabled. On Both the 55 V and 12 V outputs are enabled and good.
Power Supplies for Use with Your Switch Summit 770 W AC Power Supplies The LEDs are located on the end of the power supply unit, arranged vertically to the left of the terminal block.
Summit 1100 W AC Power Supplies Power Supplies for Use with Your Switch The Summit 770 W AC power supplies employ a single, bi-color LED to indicate power supply status, as seen in Table 55: Table 55: Summit 770 W AC Power Supply LED Status Indications LED Indicator Status DC Power Redundancy Status (Green) Power Supply Failures and warnings (Amber) Off No AC power to all power supplies or PSU is ON but with warning events PSU is Healthy or No AC power to all power supplies Flashing (1 Hz) PSU is O
ExtremeSwitching 2000 W AC Power Supply • Power Supplies for Use with Your Switch 1100 W DC PSU-BF (Model 10963)—DC power supply with back-to-front ventilation airflow These power supplies are compatible with X690 and X870 switches that have the same airflow direction as the power supply. The Summit 1100 W power supplies have the status LEDs listed in Table 57.
Power Supplies for Use with Your Switch Displaying the Status of Installed Power Supplies Displaying the Status of Installed Power Supplies Using the show power command, you can view detailed information about the power supplies your switch is using. This status information may be useful for your technical support representative if you have a network problem. The switch collects the following power supply information: • • • • • The current state of the power supply (powered off or powered on).
Expansion Modules V300 Virtual Port Extender on page 142 V400 Virtual Port Extender on page 147 LRM/MACsec Adapter on page 148 Versatile Interface Modules for ExtremeSwitching X465 Series Switches on page 152 Solid-state Drives on page 159 Optional Ports for X460-G2 Switches on page 159 Several different hardware accessories are available for expanding the capabilities of your Extreme Networks switch. Collectively, they are referred to as expansion modules.
Expansion Modules The following table lists the types of expansion modules and the switch series with which they are compatible. Table 59: Compatibility of Expansion Modules Module Type Name No. of Ports Type of Ports Compatible Switch Series Bridge Port Extender V300 Virtual Port Extender up to 8 8 10/100/1000BASE-T ports and: • 2 1000BASE-T 802.
V300 Virtual Port Extender Expansion Modules V300 Virtual Port Extender Bridge port extenders (BPEs) are devices that do not fully process packets, nor make forwarding or filtering decisions. Instead, they simply receive packets from extended ports and forward packets toward the upstream controlling bridge (an ExtremeXOS-based switch) for L2/L3 processing. This scheme, based on the IEEE 802.1BR specification, is known as extended edge switching.
Expansion Modules V300-8T-2X Model 1 = DC input 2 = 10/100/1000BASE-T PoE+ ports 3 = 10Gb SFP+ ports 4 = USB port 5 = Console/Management port Figure 122: V300 Virtual Port Extender Rear Panel V300-8T-2X Model The Virtual Port Extender V300-8T-2X model offers the following features: • • • • • Eight 10/100/1000BASE-T half/full duplex ports Two 10Gb SFP+ ports One USB port One console/management port One DC input jack The V300-8T-2X model requires that ExtremeXOS (EXOS) version 30.
Expansion Modules V300-8P-2T-W Model Figure 124: V300 Virtual Port Extender Rear Panel V300-8P-2T-W Model The Virtual Port Extender V300-8P-2T-W model offers the following features: • • • • 8 10/100/1000BASE-T half duplex PoE+ ports 2 1000/BASE-T 802.3bt Type 4 ports PoE power Fanless The V300-8P-2T-W model requires that ExtremeXOS (EXOS) version 30.2.2 (or later) be installed on the switch to which it is attached.
V300HT-8P-2X Model Expansion Modules • • • One USB port One console/management port Two DC input ports The V300HT-8P-2X model requires that ExtremeXOS (EXOS) version 30.5 (or later) be installed on the switch to which it is attached. For more information about configuring EXOS for use with this equipment, see the ExtremeXOS 30.7 User Guide. The V300HT-8P-2X model is compatibile with the following power supplies: 40W AC PS FRU (Model XN-ACPWR-40W).
Expansion Modules V300HT-8T-2X Model V300HT-8T-2X Model The Virtual Port Extender V300HT-8T-2X model is a high-temperature model that offers the following features: • • • • • Eight 10/100/1000BASE-T half/full duplex ports Two 10Gb SFP+ ports One USB port One console/management port Two DC input ports The V300HT-8T-2X model requires that ExtremeXOS (EXOS) version 30.6 (or later) be installed on the switch to which it is attached.
V300 Virtual Port Extender LEDs Expansion Modules V300 Virtual Port Extender LEDs The V300 Virtual Port Extender front panel LEDs observe the following behavior: Table 60: V300 Virtual Port Extender LEDs Location LED Indicative Color Status Description LED Per device PWR LED (Top) Green Off Power off Solid Power on System LED (Bottom) LED Per RJ45 Port 1-8 (PSE) Link/Act (left) PoE (right) LED Per RJ45 Port 9-10 (PD) Link/Act (left) PoE (right) PoE model Amber Solid External PSU 2 fail (
Expansion Modules LRM/MACsec Adapter links or downstream cascade ports to other V400 units. The SFP+ ports are the only ones that can be used as uplink ports in a cascading configuration. The V400 Virtual Port Extender requires that ExtremeXOS (EXOS) version 22.5 (or later) be installed on the switch to which it is attached. For more information about configuring EXOS for use with this equipment, see the ExtremeXOS 30.7 User Guide.
Maximum Capacity for Using the LRM/MACsec Adapter with Supported Switch Models Expansion Modules Deploy the LRM/MACsec Adapter by connecting both ports – using a dedicated SFP cable called the host cable – to SFP or SFP+ ports on a switch that does not natively support LRM and MACsec connections. The switch is referred to as the host switch. Caution Connect the adapter to the host switch using only the host cable that is provided for this purpose. The use of other cables can damage the equipment.
Maximum Capacity for Using the LRM/MACsec Adapter with Supported Switch Models • Expansion Modules Whether you are using an auxiliary power (USB) cable to draw additional power beyond what is provided by the host switch. Note • The figures listed assume that, in every case, both adapter ports are connected to the host switch. The adapter will not operate properly if only one port is connected to the host switch.
Maximum Capacity for Using the LRM/MACsec Adapter with Supported Switch Models Expansion Modules Table 61: Maximum Number of LRM/MACsec Adapters, by Switch Model and Connection Type (continued) Switch Model Mode: LRM Only Mode: LRM and MACsec Two ports no aux. power Two ports 0.5A aux. power Two ports aux. power (see note 1) One port One bypass aux.
Limitations for Some Optical Devices Expansion Modules Limitations for Some Optical Devices Temperature Limitations In most circumstances, the LRM/MACsec Adapter can operate at temperatures up to 45°C (113°F). However, the maximum operating temperature is 40°C (104°F) when the adapter is used with any of the following optical transceivers: • • • • • 10Gb ER SMF (part no. 10309) 10Gb ZR SMF (part no. 10310) 10Gb Tunable DWDM ZR (part no. 10325) 1000BASE-BX-U bidirectional SFP 120 km (part no.
VIM5-2Q Versatile Interface Module Expansion Modules • • • • VIM5-4X versatile interface module that provides four 10-GbE (SFP+) ports. VIM5-4XE versatile interface module that provides four 10-GbE (SFP+) ports, LRM/MACsec capable. VIM5-4Y versatile interface modulethat provides four 25-GbE (SFP28) ports. VIM5-4YE versatile interface module that provides four 25-GbE (SFP28) MACsec capable ports. For 48-port models, the VIM5 ports are 49-56. For 24-port models, the VIM5 ports are 25-32.
Expansion Modules VIM5-2Y Versatile Interface Module Figure 135: VIM5-2Q Versatile Interface Module Table 63: Port Numbers for Ports on the VIM5-2Q Module ExtremeSwitching X465 Port Number for 24-port Models ExtremeSwitching X465 Port Number for 48-port Models 25, 29 in 1x40 mode 25-28, 29-32 in 4x10 mode 49, 53 in 1x40 mode 49-52, 53-56 in 4x10 mode VIM5-2Y Versatile Interface Module The VIM5-2Y versatile interface module provides two 25-GbE (SFP28) ports.
VIM5-4X Versatile Interface Module Expansion Modules Figure 136: VIM5-2Y Versatile Interface Module Table 64: Port Numbers for Ports on the VIM5-2Y Module ExtremeSwitching X465 Port Number for 24-port Models ExtremeSwitching X465 Port Number for 48-port Models 25, 26 49, 50 VIM5-4X Versatile Interface Module The VIM5-4X versatile interface module provides four 10-GbE (SFP+) ports.
Expansion Modules VIM5-4XE Versatile Interface Module Figure 137: VIM5-4X Versatile Interface Module Table 65: Port Numbers for Ports on the VIM5-4X Module ExtremeSwitching X465 Port Number for 24-port Models ExtremeSwitching X465 Port Number for 48-port Models 25-28 49-52 VIM5-4XE Versatile Interface Module The VIM5-4XE versatile interface module provides four 10-GbE (SFP+) ports, LRM/MACsec capable.
VIM5-4Y Versatile Interface Module Expansion Modules Figure 138: VIM5-4XE Versatile Interface Module Table 66: Port Numbers for Ports on the VIM5-4XE Module ExtremeSwitching X465 Port Number for 24-port Models ExtremeSwitching X465 Port Number for 48-port Models 25-28 49-52 VIM5-4Y Versatile Interface Module The VIM5-4Y versatile interface module provides four 25-GbE (SFP28) ports.
Expansion Modules VIM5-4YE Versatile Interface Module Figure 139: VIM5-4Y Versatile Interface Module Table 67: Port Numbers for Ports on the VIM5-4Y Module ExtremeSwitching X465 Port Number for 24-port Models ExtremeSwitching X465 Port Number for 48-port Models 25-28 49-52 VIM5-4YE Versatile Interface Module The VIM5-4YE versatile interface module provides four 25-GbE (SFP28) LRM/MACsec capable ports.
Solid-state Drives Expansion Modules Figure 140: VIM5-4YE Versatile Interface Module Table 68: Port Numbers for Ports on the VIM5-4YE Module ExtremeSwitching X465 Port Number for 24-port Models ExtremeSwitching X465 Port Number for 48-port Models 25-28 49-52 Solid-state Drives Solid-state drives (SSD) provide modular storage support. X465 Series switches accommodate one SSD module using a reserved slot on the rear of the switch, which is supported on EXOS release 30.3 and later.
Expansion Modules VIM-2q Port Option Card • • VIM-2x Ethernet Module with 2x10GSFP+ ports TM-CLK Clock Module to support SyncE and 1588 Note Optional VIM and clock modules for the X460-G2 series switches are not compatible with X460 series switches. Caution The switch must be powered off before you install any interface module options (VIMs or clock modules). The interface module options are not hot swappable.
Expansion Modules VIM-2ss Port Option Card VIM-2ss Port Option Card X460-G2 series stacking modules allow you to add two high-performance SummitStack ports to the VIM (Versatile Interface Module) slot on the rear panel of an X460-G2 series switch. These ports allow you to combine multiple units into a single SummitStack management entity, using stacking cables that are available from Extreme Networks.
Expansion Modules VIM-2x Ethernet Module Port Option Card VIM-2x Ethernet Module Port Option Card The VIM-2x Ethernet Module option card, shown in Figure 144, allows you to add up to two 10-gigabit SFP+ optical ports to the VIM slot on the rear panel of the X460-G2 series switch. These ports support 1 GbE and 10 GbE SFP and SFP+ transceivers. Caution VIM modules are not hot swappable. You must power down the switch before installing any VIM modules.
Expansion Modules • TM-CLK Clock Module 1 PPS signal at the top of each second Caution The clock module is not hot swappable. You must power down the switch before installing any VIM modules. Note The TM-CLK module has no inputs for timing signals, and it cannot act as a 1588v2 grandmaster clock. The module provides no RJ45 Building Integrated Timing System (BITS) output, and in particular does not provide the serial time of day output.
Site Preparation Planning Your Site on page 164 Operating Environment Requirements on page 165 Rack Specifications and Recommendations on page 168 Evaluating and Meeting Cable Requirements on page 170 Meeting Power Requirements on page 176 Following Applicable Industry Standards on page 179 By carefully planning your site, you can maximize the performance of your existing network and ensure that it is ready to migrate to future networking technologies.
Site Preparation Operating Environment Requirements After examining your physical site and verifying that all environment requirements are met, evaluate and compare your existing cable plant with the requirements of the Extreme Networks equipment to determine if you need to install new cables. 3. Meeting power requirements. To run your equipment safely, you must meet the specific power requirements for each switch and external power supply unit installed in the system.
Site Preparation Setting up the Wiring Closet Table 70: Authorities on Electrical Codes (continued) Organization Address Web Site URL National Electrical Manufacturing Association (NEMA) (USA only) Organization of electrical product manufacturers. Members develop consensus standards for cables, wiring, and electrical components. NEMA 1300 N. 17th Street Rosslyn, VA 22209 USA www.nema.
Site Preparation Controlling the Temperature Observe these additional thermal recommendations for the location where you plan to install your equipment: • Ensure that the ventilation in the wiring closet is adequate to maintain a temperature below 40°C (104°F). • • Install a reliable air conditioning and ventilation system. • Maintain a storage temperature between -40°C (-40°F) and 70°C (158°F).
Site Preparation Controlling the Humidity Level Table 72: Ambient Temperature Range for Switches (continued) Switch Series Ambient Operating Temperature Range X690 0°C (32°F) to 45°C (113°F) X870 0°C (32°F) to 45°C (113°F) Controlling the Humidity Level To maximize equipment life, keep operating humidity between 50% and 70% relative humidity (noncondensing) during typical operation. The equipment can operate between 10% and 95% relative humidity (non-condensing) for short intervals.
Grounding the Rack Site Preparation Grounding the Rack The rack must be properly grounded. Use a rack grounding kit and a ground conductor that is carried back to earth or to another suitable building ground. At a minimum, follow these guidelines to ground equipment racks to the earth ground: • • CAD weld appropriate wire terminals to building I-beams or earth ground rods. For a DC-powered switch, use a minimum 14 AWG stranded copper wire for grounding.
Securing the Rack Site Preparation Securing the Rack The rack should be attached to the wiring closet floor with 9.5 mm (3/8 in) lag screws or equivalent hardware. The floor under the rack should be level within 5 mm (3/16 in). Use a floor-leveling cement compound if necessary or bolt the racks to the floor as shown. Figure 146: Properly Secured Rack Brace open equipment racks if the channel thickness is less than 6.4 mm (1/4 in).
Site Preparation • • • • Installing Cable Assign a unique identification number to each equipment rack. Identify all wiring closets by labeling the front panel of your Extreme Networks equipment and other hardware. Keep accurate and current cable identification records. Post records near each equipment rack. For each cable drop, include information about the cable source, destination, and jumper location.
Installing Cable Site Preparation • Use plenum-rated cable when it is necessary for safety and fire rating requirements. Consult your local building codes to determine when it is appropriate to use plenum-rated cable, or refer to IEC standard 850. • Keep all ports and connectors free of dust. Figure 147: Properly Installed and Bundled Cable 1 = Ensure adequate slack and bend radius Handling Fiber Optic Cable Fiber optic cable must be handled carefully during installation.
Site Preparation Installing Cable Figure 148: Bend Radius for Fiber Optic Cable 1 = Minimum 5 cm (2 in) radius in 90° bend Cable Distances and Types Table 73 on page 173 shows one example of cable media types and maximum distances that support reliable transmission in accordance with international standards (except where noted). Refer to Extreme Networks Pluggable Transceivers Installation Guide for descriptions of optics and cables, as well as a complete list of supported cable lengths.
Installing Cable Site Preparation Table 73: Cable Distances and Types (continued) 174 Standard Media Type MHz•km Rating Maximum Distance (Meters) 100BASE-LX100 (1550nm optical window) 10/125 µm single-mode fiber – 100,000 1000BASE-BX10 (1490nm optical window) (1310nm optical window) 10/125 µm single-mode fiber – 10,000 1000BASE-LX70 (1550nm optical window) 10/125 µm single-mode fiber – 70,000 10/100/1000BASE-T SFP (1 Gbps link) Category 5 and higher UTP cable – 100 (100 Mbps link) Ca
Using RJ45 Connector Jackets Site Preparation Table 74 and Table 75 on page 175 list direct-attach cables available from Extreme Networks.
Site Preparation Preventing Radio Frequency Interference (RFI) Not recommended Best Better 0.1" = 1mm actual 39.37% : 254% SPG_001 Figure 149: RJ45 Connector Jacket Types Preventing Radio Frequency Interference (RFI) If you use UTP cabling in an installation, take precautions to avoid radio frequency (RF) interference.
Power Supply Requirements Site Preparation Power Supply Requirements Follow these recommendations when you plan power supply connections for your equipment: • Place the equipment in an area that accommodates the power consumption and component heat dissipation specifications. • Be sure that your power supply meets the site DC power or AC power requirements of the network equipment. • When you connect power to installed equipment, do not make this connection through an extension cord or power strip.
DC Power Requirements • • Site Preparation Provide alarms on certain error conditions. Provide short-circuit protection.
Site Preparation Following Applicable Industry Standards Following Applicable Industry Standards Always follow applicable industry standards. For more information, see the following ANSI/TIA/EIA standards: • • • • ANSI/TIA/EIA-568-A—the six subsystems of a structured cabling system ANSI/TIA/EIA-569-A—design considerations ANSI/TIA/EIA-606—cabling system administration ANSI/TIA/EIA-607—commercial building grounding and bonding requirements You can access these standards at: www.ansi.org or www.
Building Stacks Introduction to Stacking on page 180 Plan to Create Your Stack on page 193 Set up the Physical Stack on page 214 A stack consists of a group of up to eight switches that are connected to form a ring. The stack offers the combined port capacity of the individual switches. But it operates as if it were a single switch, making network administration easier. Stacking is facilitated by the SummitStack feature – part of the ExtremeXOS Edge license.
Building Basic Stacks Building Stacks Figure 150: Switches Connected to Form a Stack The following sections introduce you to the basic principles of stacking and provide recommendations for creating stacks. More information to answer your questions about stacking and help you plan your configuration is available on the Extreme Networks GTAC Knowledge Base.
Building Basic Stacks Building Stacks Some stackable switches have a seven-segment LED, called the stack number indicator on the front panel. See Figure 151. When a stack is operating, the indicator displays the switch's slot number. This LED does not light on switches that are not currently operating as part of a stack. The top half of the number blinks if the switch is the master, and the bottom half blinks if it is the backup. If the LED is steadily lit, the switch is a standby.
SummitStack Topologies Building Stacks stack. Consider these differences when selecting a master node, selecting a backup node, and configuring failover operation. Note We recommend that the master and backup roles be assigned to switches from the same series. For example, if the master node is an X460-G2 switch, the backup node should also be an X460-G2 switch. Similarly, if the master node is an X670-G2 series switch, the backup node should also be an X670-G2 switch.
SummitStack Topologies Building Stacks A stack is the collection of all switches, or nodes, that are cabled together to form one virtual switch using the ExtremeXOS SummitStack feature. The maximum cable length supported between switches depends on the types of switches in your stack, the installed option cards, and the configured stacking ports. For more information, see Plan to Create Your Stack on page 193.
Building Stacks SummitStack Topologies Figure 154: Switches Connected to Each Other in a Ring Topology Note that, while a physical ring connection may be present, a ring active topology exists only when all nodes in the stack are active. Daisy Chain Topology: Not Recommended for Stacking Stackable switches can be connected in a daisy-chain topology. This is a ring topology with one of the links disconnected, inoperative, or disabled.
Using Ethernet Ports for Stacking (SummitStack-V Feature) Building Stacks Figure 155: Daisy Chain Topology You might need to use a daisy chain topology while adding a new node, removing a node, or joining two stacks. If you are using a daisy chain topology, the possibility of a dual primary condition increases. Before you create a daisy chain topology, read "Managing a Dual Primary Situation" in the ExtremeXOS 30.7 User Guide.
Using Ethernet Ports for Stacking (SummitStack-V Feature) Building Stacks A single stack can use both native stacking ports and alternate stacking ports. On one switch, for example, you can use a native stacking port to connect to a switch in the same rack, and you can use an alternate stacking port to connect to a switch on a different floor.
Building Stacks Available Stacking Methods Table 76: Native and Alternate Stacking Ports (continued) Switch Model Type or location of Native Stacking Ports Alternate Stacking Ports Location of Alternate Stacking Ports X460-G2-48t-GE4 X460-G2-48p-GE4 VIM-2ss or VIM-2q 53,54 VIM-2x X460-G2-24t-10GE4 X460-G2-24x-10GE4 X460-G2-24p-10GE4 VIM-2ss or VIM-2q 31,32 Front panel X460-G2-48t-10GE4 X460-G2-48x-10GE4 X460-G2-48p-10GE4 VIM-2ss or VIM-2q 51,52 Front panel X465 S1 and S2 on front panel N
Building Stacks Available Stacking Methods Table 77 shows the switch models that can participate in each stacking method. Table 77: SummitStack Methods Stacking Method Speed per Link (HDX) Cable Type and Lengths Switch Models SummitStack 10 Gbps 0.5 m, 1.5 m, 3.0 m, 5.0 m, 20 Gb Stacking Cable X460-G2 SummitStack-V 10 Gbps 0.
SummitStack Terms Building Stacks Table 77: SummitStack Methods (continued) Stacking Method Speed per Link (HDX) Cable Type and Lengths Switch Models SummitStackV400 106 Gbps 0.5 m - 20 m QSFP28 only X590 (ports 61, 69) X690 (ports 61, 69) X695 (ports 61, 62) X870 (ports 121, 125) SummitStackV400 Alternative Configuration 100 Gbps V400 Alternative Configuration is required when using specific fiber cables. This mode sets the stack ports to 100G, enables pre-emphasis, and FEC (clause_91).
Building Stacks SummitStack Terms Table 78: List of Stacking Terms (continued) Term Description Alternate stacking A stacking configuration in which stack members are connected using 10Gbps Ethernet data ports that have been configured for stacking. These ports are located either on the switch itself or on option cards installed on the rear of the switch.
SummitStack Terms Building Stacks Table 78: List of Stacking Terms (continued) 192 Term Description Master node The node that is elected as the master (or primary) node in the stack. The master node runs all of the configured control protocols such as OSPF (Open Shortest Path First), RIP (Routing Information Protocol), Spanning Tree, and EAPS (Extreme Automatic Protection Switching). The master node controls all of its own data ports as well as all data ports on the backup and standby nodes.
Plan to Create Your Stack Building Stacks Table 78: List of Stacking Terms (continued) Term Description Node role election The process that determines the role for each node. The election takes place during initial stack startup and elects one master node and one backup node. An election also takes place after a master node failover, when a new backup node is elected from the remaining standby nodes. Node role election priority A priority assigned to each node, to be used in node role election.
Recommendations for Placing Switches for Stacked Operation Building Stacks The topics in Stacking Considerations for Each Switch Model on page 196 describe whether or not each switch model has stacking support enabled by default. • To enable stacking-support, issue the enable stacking-support command. You must enable stacking-support individually for every switch in the stack that does not have stacking support enabled by default.
Recommendations for Configuring Stacks Building Stacks Recommendations for Configuring Stacks When deploying a new stack, follow these recommendations for configuring the software: • Plan to use the stack as if it were a single multi-slot switch. You need to decide the number and type of stackable switches in the stack and how the stack ports will be connected to the network. • You can physically connect the stack to your networks before the nodes are configured.
Stacking Considerations for Each Switch Model Building Stacks Stacking Considerations for Each Switch Model The following topics list basic information and special considerations pertaining to stacking for each of the ExtremeSwitching switch models.
Building Stacks Stacking Considerations for Each Switch Model X450-G2 Stacking The stacking-support option is enabled by default for X450-G2 switches. For more information, see Enabling and Disabling the Stacking-Support Option on page 193. The stacking port selection option, which allows you to choose between native and alternate ports, is enabled by default for X450-G2 switches. For more information, see Selecting Native and Alternate Stacking Ports on page 207.
Building Stacks Stacking Considerations for Each Switch Model Alternate Stacking for X450-G2 Switches Alternate stacking (SummitStack-V) is supported for the X450-G2 10GE4 switch models, as summarized in Table 82. Use the front-panel 10G ports for alternate stacking.
Stacking Considerations for Each Switch Model Building Stacks The stacking port selection option, which allows you to choose between native and alternate ports, is enabled by default for X460-G2 switches. For more information, see Selecting Native and Alternate Stacking Ports on page 207. Table 83: Stacking Methods for X460-G2 Switches Stacking Method Speed per Link (HDX) Cable Type and Lengths SummitStack 10 Gbps (rear panel, with VIM) See Native Stacking for X460-G2 Switches on page 199. 0.5m, 1.
Stacking Considerations for Each Switch Model Building Stacks Figure 158: VIM-2q Port Option Card 1 = LEDs 2= QSFP+ ports Note VIMs are not hot swappable. You must power down the switch before installing any VIMs. Alternate Stacking for X460-G2 Switches X460-G2 10-gigabit switch models (10GE4) support alternate stacking (SummitStack-V feature) through the 10G SFP+ ports located on the front panel. See Summit X460-G2 (10G Models) Stack Configuration Guidelines on page 201 for additional considerations.
Stacking Considerations for Each Switch Model Building Stacks Table 84: Alternate Stacking Ports for X460-G2 Switches (continued) Switch Model Type or location of Native Stacking Ports Alternate Stacking Ports Location of Alternate Stacking Ports X460-G2-24t-10GE4 X460-G2-24x-10GE4 X460-G2-24p-10GE4 VIM-2ss or VIM-2q 31,32 Front panel X460-G2-48t-10GE4 X460-G2-48x-10GE4 X460-G2-48p-10GE4 VIM-2ss or VIM-2q 51,52 Front panel Note • On X460-G2 24-port 10GE4 switches, ports 31 and 32 are not ava
Building Stacks Stacking Considerations for Each Switch Model • Only the master and master-capable nodes require a license to support special features such as MPLS (Multiprotocol Label Switching). • If the MPLS feature pack is installed on the master-capable nodes, the following guidelines apply: ◦ Every switch in the stack must meet the software and hardware requirements listed in the Feature License Requirements document. ◦ Only the enhanced stacking protocol is supported for the X460-G2 switch.
Building Stacks Stacking Considerations for Each Switch Model X590 Stacking X590 series switches can be stacked with other X590 switches, with X690 switches, X695 switches, and with X870 switches. X590 series switches support native stacking using front-panel data ports 29 and 33. Alternate stacking is not supported for X590 switches. The stacking-support option is disabled by default for all X590 switches. For more information, see Enabling and Disabling the Stacking-Support Option on page 193.
Stacking Considerations for Each Switch Model Building Stacks Table 88 summarizes alternate stacking support for X620 switches. Table 88: Alternate Stacking Ports for X620 Switches Switch Model Type or location of Native Stacking Ports Alternate Stacking Ports Location of Alternate Stacking Ports X620-8t-2x X620-10x None 9,10 Front panel X620-16t X620-16x X620-16p None 15,16 Front panel Note The stacking ports on X620 switches do not support 10GBASE-T optics.
Building Stacks Stacking Considerations for Each Switch Model • For SummitStack-V320 stacking, use ports 49, 53, 57, and 61. X670-G2-72x switches support do not support native stacking. Alternate Stacking for X670-G2 Switches Table 90 summarizes alternate stacking support for X670-G2 switches.
Building Stacks Stacking Considerations for Each Switch Model Note Only QSFP28 direct-attach passive copper cable, at lengths up to 5 meters, can be used in X690 stacking ports. Alternate stacking is not supported for X690 switches. The stacking-support option is disabled by default for all X690 switches. For more information, see Enabling and Disabling the Stacking-Support Option on page 193. Table 91 summarizes stacking support for X690 switches.
Selecting Native and Alternate Stacking Ports Building Stacks Table 93 summarizes stacking support for X870 switches. Note Only QSFP28 direct-attach passive copper cable, at lengths up to 5 meters, can be used in X870 stacking ports. Table 93: Stacking Methods for X870 Switches Stacking Method Speed per Link (HDX) Cable Type and Lengths SummitStack-V400 (Front panel ports 121,125) 106 Gbps 0.
Combining Switches from Different Series • Building Stacks To unconfigure the stacking-support feature, use the following command: unconfigure stacking-support Note Commands that contain the stacking-support keyword apply to the local switch only. This means that each switch that will use alternate stacking ports must be configured separately.
Combining Switches from Different Series Building Stacks SummitStack-V400 Table 94: Matrix of Switches and Stacking Methods Stack with X440G21 X450G22 X460G21 X440-G21 X450-G22 V V V X460-G21 V X5903 X465 X620 X670G24 V V V V V84 V V V V 40G SS V V160 V V V160 X690 X695 X870 V400 X5903 V400 V160 V400 V400 X465 V160 V160 V160 X620 V V V V V X670-G24 V V V V160 V V V80 (suppor ted in EXOS 30.
Selecting Stacking Cables Building Stacks Selecting Stacking Cables Depending on the switch model and the number and type of stacking ports, the bidirectional stacking link provides 40 Gbps, 80 Gbps, or 160 Gbps full-duplex bandwidth. Stacking connections using the native stacking ports require stacking cables that are specific to the type of stacking port. These cables are available from Extreme Networks in lengths from 0.5 meter to 100 meters.
Building Stacks Selecting Stacking Cables Table 95: Available Stacking Cables for Extreme Networks Switches (continued) Part Number Cable Type, Length Compatible Ports and Devices 10313A QSFP+ direct-attach passive copper cable, 3 meters, 26 AWG 21-Gbps stacking ports on X450-G2 switches, QSFP+ ports on X670-G2-48x-4q switches 10315 QSFP+ direct-attach active optical cable, 10 meters 40-Gbps stacking ports on X465, VIM5-4x, and VIM5-4XE QSFP+ ports on X670-G2-48x-4q switches 10316 QSFP+ direct-a
Using the Extreme Stacking Tool Building Stacks Alternative Configuration for Optics on X590, X690, X695, and X870 Switches To use certain fiber cables and optical transceivers for stacking on X590, X690, X695, and X870 switches, you must use the V400 alternative-configuration option on the configure stacking-support command. This option sets the stacking ports to 100 Gb, enables pre-emphasis, and enables error correction using IEEE 802.3bj Clause 91 RS-FEC.
Building Stacks Using the Extreme Stacking Tool 2. Find a switch model in the Switches column. Each switch model is represented by a rectangle, as shown in the example in the following figure. In this example, stacking ports are represented by S1 and S2 on the right side. Figure 159: X465 Switches Shown in the Stacking Tool Tip Click a rectangle to display more information about the switch model and the VIMs (if any) that it can use for stacking. 3.
Building Stacks Set up the Physical Stack Table 97: Colors in the Stacking Tool Display (continued) Color Meaning Yellow Incompatible with the selected master node Red Incompatible Set up the Physical Stack After you have installed the individual switches (see "Installing Your Switch"), follow these steps to create the physical stack. 1. Connect the switches that will form the stack. See Connecting the Switches to Form the Stack Ring on page 214. 2. Connect stacking cables to the switches.
Connecting the Switches to Form the Stack Ring Building Stacks Figure 160: Combining Stacking Port Types: Example Note The figure is intended to show cable connections between switches. Details of the switches themselves, such as the location of the stacking ports and fan modules, might differ from those of the switches that actually would be used.
Building Stacks Connecting the Switches to Form the Stack Ring Using SummitStack-V320 Stacking A stacking rate of 320 Gbps can be achieved across a stack of X670-G2-48x-4q switches using the QSFP+ connection and cables. These switches can use 80-Gbps stacking connections that provide 320 Gbps full-duplex bandwidth. Examples of Valid Stacking Configurations The X460-G2 accommodates the VIM-2ss SummitStack module, which provides SummitStack ports.
Connecting the Switches to Form the Stack Ring Building Stacks Figure 162: SummitStack Cable Connections Using Eight Switches with Integrated SummitStack Ports Table 100 lists the recommended order for connecting the stacking ports in this example. Table 100: Basic Stack with Eight Switches: Connections Connect this slot and port . . . . . .
Building Stacks Connecting the Switches to Form the Stack Ring Slot 1 Slot 2 Slot 3 Slot 4 Figure 163: SummitStack Configuration Using Different Switch Models and SummitStack 40G Cables Example: Stacked Switches across Two Racks The following example shows four switches – two of one model, two of another model – physically located in two adjacent racks. Each rack has a switch of one model at the top, with a switch of another model below it.
Connect Stacking Cables Building Stacks Rack A Rack B Slot 1 Slot 2 Rack C Rack D Rack E Slot 5 Slot 3 Slot 4 Figure 165: Top-of-Rack Stack Installation Table 102 lists the recommended order for connecting the stacking ports in this example. Table 102: Stacked Switches across Several Racks: Connections Connect this slot and port . . . . . .
Building Stacks Connect Stacking Cables 4. Repeat steps 1 through 3 to connect the cable to the second switch. Figure 166: Connecting a SummitStack Cable Caution Avoid making sharp bends in the cable. Sharp bends can stress the cable and cause damage.
Building Stacks Connect Your Stack to the Management Network Figure 168: Connecting a QSFP+ Active Optical Direct-Attach Cable to a SummitStack-V Module 2. Push the connector into the port until you hear it click into place. Connect Your Stack to the Management Network Before you can configure ExtremeXOS for a new stack, your management console must be connected to at least one switch in the stack.
Installing Your Extreme Networks Switch Safety Considerations for Installing Switches on page 223 Pre-installation Requirements on page 223 Attaching the Switch to a Rack or Cabinet on page 224 Installing Optional Components on page 228 Installing Internal Power Supplies on page 228 Connecting Power to the Switch on page 259 Connect Network Interface Cables on page 260 Performing Initial Management Tasks on page 260 Before you attempt to install or remove an Extreme Networks switch, read the precautions in
Safety Considerations for Installing Switches Installing Your Extreme Networks Switch 4. Install one or two power supplies (for switches that require them) and connect to an electrical source. See Installing Internal Power Supplies on page 228. Note Be aware of whether you are installing an AC-powered switch or a DC-powered switch. The installation instructions are different depending upon what type of power is used. 5. Connect power to the switch. See Connecting Power to the Switch on page 259. 6.
Attaching the Switch to a Rack or Cabinet Installing Your Extreme Networks Switch Some ExtremeSwitching switches give you the option of choosing the airflow direction: front-to-back or back-to-front. If your switch has internal power supplies, make sure they have the same airflow direction as the fans in the switch. Other switches support airflow in only one direction.
Installing Your Extreme Networks Switch Attaching the Switch to a Rack or Cabinet Take care to load the rack so that it is not top-heavy. Start installing equipment at the bottom and work up. Note The X440-G2 and X620 switches can be front-mounted or mid-mounted to a two-post rack only. They cannot be attached to a four-post rack or cabinet. 1. On one side of the switch, set a mounting bracket against the switch housing.
Attaching the Switch to a Rack or Cabinet Installing Your Extreme Networks Switch Figure 170: Front Mount: Attaching a Short Mounting Bracket 2. Use the small bracket-mounting screws (provided) to secure the bracket to the switch housing. 3. Repeat step 1 and step 2 to attach the other bracket to the other side of the switch. 4. Slide the switch into the equipment rack or cabinet. Figure 171 shows an example of a mid-mount installation. Figure 171: Sliding the Switch into the Rack 5.
Attaching the Switch to a Rack or Cabinet Installing Your Extreme Networks Switch 6. If you are mounting the switch in a four-post rack or a cabinet, secure the rear mounting brackets (rails). Otherwise, skip to step 7 on page 227. a. At the rear of the rack or cabinet, for each side, slide the rails between the two rows of pegs on either side of the switch. Note It is best practice to extend the rear rails no more than 33 inches (83cm) from the front of the chassis.
Installing Optional Components Installing Your Extreme Networks Switch To determine which internal power supplies are compatible with your switch, see Replaceable Internal Power Supplies on page 130. Installing Optional Components After the switch is secured to the rack or cabinet, install optional components. Pluggable Transceiver Modules Extreme Networks offers several optical transceiver modules for transmitting and receiving data over optical fiber rather than through electrical wires.
Install a 300 W Internal DC Power Supply Installing Your Extreme Networks Switch 2. Prepare the power cables and ground cable by attaching the provided connection lugs to the cables. See Preparing the Cables for a 300 W DC Power Supply on page 229. 3. Insert the power supply into the switch. See Installing a 300 W DC Power Supply on page 230. 4. Connect the ground wire. See Connecting the Ground Wire to a 300 W DC Power Supply on page 231. 5. Connect the power supply to the DC source voltage.
Install a 300 W Internal DC Power Supply Installing Your Extreme Networks Switch 2. Insert the end of one power cable wire all the way into the barrel of a spade terminal and crimp the terminal securely to the wire. Figure 173: Attaching a Spade Terminal to a Cable 3. Repeat step Preparing the Cables for a 300 W DC Power Supply on page 229 for the other power cable wire. 4.
Installing Your Extreme Networks Switch Install a 300 W Internal DC Power Supply 2. If necessary, remove a blank panel from the rear of the switch. Figure 175: Removing a Blank Panel 3. Verify that the power supply is right side up. The power supply should be oriented as shown in Figure 176. 4. Carefully slide the power supply all the way into the power supply bay. Figure 176: Installing a Summit 300 W DC Power Supply (Back-to-Front Model 10933 Shown) 5.
Install a 300 W Internal DC Power Supply Installing Your Extreme Networks Switch Warning Be sure to disconnect the ground wire after you disconnect all power cables. 1. Verify that the DC circuit is de-energized. 2. Attach an ESD-preventive wrist strap to your bare wrist and connect the metal end to an appropriate ground point on the rack. 3. Pull the cover off the terminal block. 4. Identify the grounding point on the front panel of the power supply. 5.
Install a 300 W Internal DC Power Supply Installing Your Extreme Networks Switch Caution Provide proper connection and strain relief on the DC power cables in accordance with all local and national electrical codes. 1. Verify that the DC circuit is de-energized. 2. Attach an ESD-preventive wrist strap to your bare wrist and connect the metal end to an appropriate ground point on the rack. 3. Slide the cover off the terminal block. 4.
Installing Your Extreme Networks Switch Install a 300 W Internal DC Power Supply c. Slide the spade terminal of the positive wire (+24 V) under the captive square washer on the positive terminal (+24 V). d. Tighten both screws on the terminal block to 11 in‑lb (1.25 N m). +24V -24V (+) (–) Figure 179: Tightening Terminal Screws (Connecting to a +24 V Source) When connecting the power supply to a –48 V source: a.
Installing Your Extreme Networks Switch Install a 450 W or 550 W Internal DC Power Supply c. Slide the spade terminal of the positive wire (–48 V RTN) under the captive square washer on the positive terminal (labeled RTN). d. Tighten both screws on the terminal block to 11 in‑lb (1.25 N m). Figure 181: Tightening Terminal Screws (Connecting to a –48 V Source) 5. Slide the cover into place over the terminal block. 6.
Install a 450 W or 550 W Internal DC Power Supply Installing Your Extreme Networks Switch 4. Connect the ground wire. See Connecting the Ground Wire to a 450 W or 550 W DC Power Supply on page 238. 5. Connect the power supply to the electrical source and energize the DC circuit. See Connecting a 450 W or 550 W DC Power Supply to the Source Voltage on page 240.
Installing Your Extreme Networks Switch Install a 450 W or 550 W Internal DC Power Supply 2. Insert the end of one power cable wire all the way into the barrel of a spade terminal and crimp the terminal securely to the wire. Figure 182: Attaching a Spade Terminal to a Cable 3. Repeat step 2 for the other power cable wire and for the ground wire.
Install a 450 W or 550 W Internal DC Power Supply Installing Your Extreme Networks Switch 4. Carefully slide the power supply all the way into the power supply bay. Figure 184: Installing a Power Supply 5. Push the power supply in until the latch snaps into place. Caution Do not slam the power supply into the switch. 6. To install a second power supply, repeat the procedure. Note If power supplies are not installed in both power supply bays, be sure to install a cover over the unoccupied bay.
Installing Your Extreme Networks Switch Install a 450 W or 550 W Internal DC Power Supply 5. Connect the ground wire to the grounding point as follows: a. Loosen the screw enough to allow the spade terminal to slide underneath the captive square washer. Figure 185: Connecting the Ground Wire b. Slide the spade terminal of the ground wire under the captive square washer. c. Tighten the screw to 7 in‑lb (0.79 N m) as shown in Figure 186. Figure 186: Securing the Ground Wire 6.
Installing Your Extreme Networks Switch Install a 450 W or 550 W Internal DC Power Supply Connecting a 450 W or 550 W DC Power Supply to the Source Voltage Summit 450 W or 550 W DC power supply units must connect to a –48V source. The DC power connection at your facility must be made by a qualified electrician, following these instructions. Warning Always make sure that the DC circuit is de-energized before connecting or disconnecting the DC power cables on the DC power supply.
Installing a 750 W Internal DC Power Supply Installing Your Extreme Networks Switch b. Slide the spade terminal of the positive wire (–48 V RTN) under the captive square washer on the positive terminal (labeled +). (+) (–) -48V RTN SH_162 Figure 188: Connecting the Positive Power Wire to a –48V Source (450 W or 550 W DC Power Source) 6. Tighten both screws on the terminal block to 7 in‑lb (0.79 N m). 7. Snap the cover into place over the terminal block. 8.
Installing a 750 W Internal DC Power Supply Installing Your Extreme Networks Switch 2. Prepare the power cables and ground cable by stripping off the insulation. See Preparing the Cables for a 750 W DC Power Supply on page 242. 3. Ground the switch chassis. See Grounding the Switch Chassis on page 242. 4. Insert the power supply into the switch. See Installing a 750 W Internal DC Power Supply on page 241. 5. Connect the ground wire. See Connecting the Ground Wire to a 750 W DC Power Supply on page 243. 6.
Installing Your Extreme Networks Switch Installing a 750 W Internal DC Power Supply 2. Identify the grounding lug on the rear of the switch. The grounding lug is identified by the international symbol for earth ground: 3. Attach the ground wire to the grounding lug as follows. Use stranded copper wire, sized between 14 AWG and 6 AWG. a. At one end of the ground wire, strip the insulation to expose 12 mm (1/2 in) of bare wire. b. Insert the stripped wire into the grounding lug. c.
Installing Your Extreme Networks Switch Installing a 750 W Internal DC Power Supply Warning Be sure to disconnect the ground wire after you disconnect all power cables. 1. Verify that the DC circuit is de-energized. 2. Attach an ESD-preventive wrist strap to your bare wrist and connect the metal end to an appropriate ground point on the rack. 3. Connect the ground wire to the grounding point on the power supply. The grounding point is the middle of the three slots.
Installing Your Extreme Networks Switch Installing a 750 W Internal DC Power Supply The DC power connection at your facility must be made by a qualified electrician, following these instructions. Warning Always make sure that the DC circuit is de-energized before connecting or disconnecting the DC power cables on the DC power supply. Caution Provide proper connection and strain relief on the DC power cables in accordance with all local and national electrical codes. 1.
Install an 1100 W Internal DC Power Supply Installing Your Extreme Networks Switch Install an 1100 W Internal DC Power Supply The ExtremeSwitching X690 and X870 series switches accommodate one or two Summit 1100 W power supply units (PSUs) with either front-to-back or back-to-front airflow. Note You cannot combine power supplies of different wattages in the same switch. To install a Summit 1100 DC power supply, refer to the following sections as needed: 1.
Install an 1100 W Internal DC Power Supply Installing Your Extreme Networks Switch 2. Insert the end of the stripped ground wire (green or green and yellow) all the way into the barrel of the ring terminal and crimp the terminal securely to the wire. Figure 191: Attaching a Ring Terminal to a Ground Cable No ring terminal is required to connect the cable wires (non-ground wires) to the 1100 W DC power supply.
Install an 1100 W Internal DC Power Supply Installing Your Extreme Networks Switch 5. Carefully slide the power supply all the way into the power supply bay. See Figure 192. Figure 192: Installing an 1100 W DC Power Supply 6. Push the power supply in until the latch snaps into place. Caution Do not slam the power supply into the switch. 7. To install a second power supply, repeat the procedure.
Install an 1100 W Internal DC Power Supply Installing Your Extreme Networks Switch 3. Connect the ground wire to the grounding post as follows: a. Remove the nut from the grounding post. b. Slide the ring terminal of the ground wire onto the grounding post (callout 1 in Figure 193). Figure 193: Securing the Ground Wire c. Screw the nut onto the grounding post (callout 2). d. Tighten the nut to 7 in‑lb (0.79 N m). 4. Connect the other end of the wire to a known reliable earth ground point at your site.
Install an 1100 W Internal DC Power Supply Installing Your Extreme Networks Switch 3. Verify that the ground wire is attached to the power supply. See Figure 193 on page 249. 4. Insert a screwdriver into both slots on the top of the terminal connector and loosen the screws enough to accommodate a stripped power input cable. 5. Insert the DC power cables into the connector. a. Slide the end of the positive wire (–48 V RTN) into the positive terminal (labeled +, on the left side of the connector). b.
Installing Internal AC Power Supplies Installing Your Extreme Networks Switch 6. Insert the connector into the slot on the power supply. See Figure 195. Figure 195: Inserting the Connector into the Power Supply 7. Connect the cables to the DC source voltage, using hardware appropriate to the installation site and following local and national electrical codes. 8. Energize the DC circuit.
Installing Internal AC Power Supplies Installing Your Extreme Networks Switch 715 W AC PSU Part numbers XN-ACPWR-715W-FB, 10951, and 10952 are compatible with X450-G2 and X460-G2 PoE switches. Part numbers XN-ACPWR-715W-FB and 10951 are compatible with ExtremeSwitching X465 PoE switch models. For installation instructions, see Installing a 350 W, 715 W, 770 W, 1100 W, or 2000 W Internal AC Power Supply on page 258. 750 W AC PSU Part number 10931. For PoE switches.
Installing Internal AC Power Supplies Installing Your Extreme Networks Switch Caution Make sure that the AC power supply circuit is not overloaded. Use proper over-current protection, such as a circuit-breaker, to prevent over-current conditions. 1. If necessary, remove a blank panel from the back of the switch (see the following figures). Figure 196: Removing a Blank Panel (300 W Power Supply Unit) Figure 197: Removing a Blank Panel (750 W Power Supply Unit) 2.
Installing Internal AC Power Supplies Installing Your Extreme Networks Switch Figure 199: Installing a 750 W AC Power Supply 5. Push the power supply in until the latch snaps into place. Caution Do not slam the power supply into the switch. Note If power supplies are not installed in both power supply bays, be sure to install a cover over the unoccupied bay. Unoccupied bays must always be covered to maintain proper system ventilation and EMI levels. 6. Connect the AC power cord.
Installing Internal AC Power Supplies Installing Your Extreme Networks Switch For 750 W AC power supplies: a. If necessary, slide the plastic cord retainer farther away from the back of the switch (see Figure 200). Figure 200: Moving the Power Cord Retainer b. Connect the AC power cord to the input connector (see Figure 201).
Installing Internal AC Power Supplies Installing Your Extreme Networks Switch c. Open the clip and slip it over the barrel of the connector (see Figure 202). Figure 202: Attaching the Power Cord Retainer d. Snap the clip firmly around the connector. 7. Connect the other end of the power cord to an AC power outlet. Warning Always make sure that the source outlet is properly grounded before plugging the AC power cord into the AC power supply.
Installing Your Extreme Networks Switch Installing Internal AC Power Supplies Caution Make sure the AC power supply circuit is not overloaded. Use proper overcurrent protection, such as a circuit breaker, to prevent overcurrent conditions. To install a Summit 450 W or 550 W power supply (AC power), follow these steps: 1. Attach an ESD-preventive wrist strap to your bare wrist and connect the metal end to an appropriate ground point on the rack. 2.
Installing Internal AC Power Supplies Installing Your Extreme Networks Switch 7. Connect the AC power cord to the input connector on the power supply. Warning Always be sure that the source outlet is properly grounded before plugging the AC power cord into the AC power supply. 8. Connect power. See Connecting Power to the Switch on page 259.
Connecting Power to the Switch Installing Your Extreme Networks Switch 6. Connect the power cord to the power supply. If the power supply is equipped with a power cord retainer, use the retainer to secure the power cord to the power supply. 7. Connect the power cord to a grounded AC power outlet. Warning Always make sure that the source outlet is properly grounded before plugging the AC power cord into the AC power supply. 8. To install a second power supply, repeat the procedure.
Installing Your Extreme Networks Switch Connect Network Interface Cables Connect Network Interface Cables Use the appropriate type of cable to connect the ports of your switch to another switch or router. Cable Type Maximum Distance CAT5E 55 meters CAT6 55 meters CAT6A 100 meters Working carefully, one port at a time, do the following: 1. Verify that you have identified the correct cable for the port. 2.
Logging in for the First Time Installing Your Extreme Networks Switch Each switch should be connected to a management console – a terminal or PC with terminal-emulation software.
Configuring the Switch's IP Address for the Management VLAN Installing Your Extreme Networks Switch 3. At the login prompt, log in using the default user name admin. For example: login: admin Note For the initial password, simply press [Enter]. When you have successfully logged on to the system, the command line prompt displays the system name (for example, SummitX670-G2#) in its prompt. You are logged in with administrator privileges, which gives you access to all switch functions. 4.
Configuring ExtremeXOS on the Switch Installing Your Extreme Networks Switch Configuring ExtremeXOS on the Switch To make a switch ready for use, ExtremeXOS must be downloaded and configured. To do this, log in to the management console, connect to the switch, and follow these steps. Note The management console can run on a terminal or a PC with terminal-emulation software. In these steps, the term PC is used to refer to both. 1. Go to the Product Registration page and provide the requested information.
Installing External Power Supplies Safety Considerations for Installing Power Supplies on page 264 Pre-installation Requirements on page 265 Installing an EPS-C2 Power Supply on page 265 Installing an RPS-150XT Redundant Power Supply on page 274 Installing an RPS-500p Redundant Power Supply on page 278 Installing an STK-RPS-150PS Redundant Power Supply on page 281 Installing an STK-RPS-1005PS Redundant Power Supply on page 287 Installing a VX-RPS-1000 Redundant Power Supply on page 291 Read the information
Pre-installation Requirements Installing External Power Supplies Warning When the power supply is outside the chassis (not installed), do not plug the power supply into an electrical outlet. Plugging an uninstalled AC power supply into an electrical outlet exposes you to a hazardous energy and is a potential fire hazard.
Installing an EPS-C2 Chassis Installing External Power Supplies When installing an EPS-C2 chassis at the same time as a switch, install the components in the following order: 1. 2. 3. 4. 5. Install the switch into a rack. Install the EPS-C2 chassis into a rack. Install power supplies into the EPS-C2 chassis. Attach the redundant power cable from the EPS-C2 chassis to the switch. Attach an AC power cord to the switch's internal power supply. Then plug it into an AC power source. 6.
Installing an EPS-C2 Chassis Installing External Power Supplies b. Insert the screws and fully tighten them using a screwdriver. Figure 206: Attaching the Mounting Bracket to the EPS-C2 Chassis c. Attach the mounting bracket for the other side of the EPS-C2. 4. Slide the EPS-C2 into the rack and secure it using appropriate rack-mount screws. See Figure 207.
Installing a Summit 750 W AC Power Supply into the EPS-C2 Installing External Power Supplies Installing a Summit 750 W AC Power Supply into the EPS-C2 The EPS-C2 chassis is shipped with slots 2 and 3 covered and slot 1 open. We recommend that you install a power supply first in slot 1, but this is not required. You can install power supplies into any of the slots in the EPS-C2 chassis.
Installing External Power Supplies Connecting Redundant Power Cables for the EPS-C2 Chassis 4. Push the power supply in until the latch snaps into place. Caution Do not slam the power supply into the chassis. Figure 209: Installing a 750 W AC Power Supply in an EPS-C2 Chassis Note If power supplies are not installed in all three slots, be sure to install a cover over each unoccupied slot. Unoccupied slots must always be covered to maintain proper system ventilation and EMI levels.
Connecting Redundant Power Cables for the EPS-C2 Chassis Installing External Power Supplies The redundant power cable has keyed ends. The key is a plastic tab on the cable connector housing to ensure correct alignment of the connector. The keyed ends of the 2x7 cable are not symmetrical; one end of the cable will fit into the EPS-C2 chassis and the other end will fit into the switch.
Installing External Power Supplies Connecting the AC Power cord to the EPS-C2 4. Connect the other end of the redundant power cable (for the 2x7 connector cable, the end with the key flush with the edge of the connector pins) to the switch. See Figure 212. Be sure that the side of the connector marked TOP is facing up.
Connecting the AC Power cord to the EPS-C2 Installing External Power Supplies After the redundant power cord is connected between the EPS-C2 and the switch, and an AC power cord to the internal power supply of the switch is attached to a power source, install the AC power cord to the power supplies in the EPS-C2 as follows: 1. If necessary, slide the plastic cord retainer farther away from the back of the power supply. See Figure 213.
Connecting the AC Power cord to the EPS-C2 Installing External Power Supplies 2. Connect the AC power cord to the input connector. Figure 214: Connecting the Power Cord on the 750 W AC Power Supply 3. Open the clip and slip it over the barrel of the connector. Figure 215: Attaching the Power Cord Retainer on the 750 W AC Power Supply 4. Snap the clip firmly around the connector.
Installing an RPS-150XT Redundant Power Supply Installing External Power Supplies 5. Connect the other end of the power cord to an AC power outlet. Warning Always be sure that the source outlet is properly grounded before plugging the AC power cord into the AC power supply. Caution Make sure that the AC power supply circuit is not overloaded. Use proper overcurrent protection, such as a circuit breaker, to prevent overcurrent conditions.
Installing an RPS-150XT in a Rack Installing External Power Supplies Installing an RPS-150XT in a Rack To install the RPS-150XT in the three-slot modular shelf (STK-RPS-1005CH3), you must first install the shelf in a 19-inch rack. Caution Observe all ESD precautions when handling sensitive electronic equipment. Caution Before rack-mounting the device, ensure that the rack can support it without compromising stability. Otherwise, personal injury and/or equipment damage can result.
Installing an RPS-150XT on a Flat Surface Installing External Power Supplies 2. Slide the power supply into an empty bay in the shelf. See Figure 217. Figure 217: Installing an RPS-150XT Power Supply Unit in a Shelf 3. Tighten the captive screws to secure the power supply to the shelf. 4. Connect the RPS-150XT to its power source. See Connecting the RPS Cable and AC Power Cord to an RPS-150XT on page 277.
Connecting the RPS Cable and AC Power Cord to an RPS-150XT Installing External Power Supplies Connecting the RPS Cable and AC Power Cord to an RPS-150XT The RPS-150XT power supply is connected to the switch using the supplied RPS cable, as follows. Caution Observe all ESD precautions when handling sensitive electronic equipment. Note The switch should not be powered on during installation or removal of the power supply. This is not a hot-swap procedure. Follow the steps in the order specified.
Installing an RPS-500p Redundant Power Supply 3 = RPS-150XT Installing External Power Supplies 6 = AC power outlet with ground connection Note AC power cords and outlets vary depending on country. 3. Connect the AC power cord to the AC input power connector on the power supply. 4. Plug the AC power cord into the main AC power outlet. The AC OK and DC OK LEDs on the front of the power supply turn green to indicate that the connection was successful and the power supply is operating properly.
Installing an RPS-500p in a Rack Installing External Power Supplies Figure 219: Attaching the Rack-Mounting Brackets 1 = Rack-mounting brackets (2) 2 = M3x6mm flathead screws (8) 2. With the rack-mounting brackets attached, position the RPS-500p between the vertical rack rails of the 19-inch rack as shown in Figure 220. Figure 220: Fastening the RPS-500p to the Rack 1 = RPS-500p 3 = Mounting screws (4) 2 = Rails of 19-inch rack 3.
Installing an RPS-500p on a Flat Surface Installing External Power Supplies 4. Connect the RPS-500p to its power source. See Connecting the RPS Cable and AC Power Cord to an RPS-500p on page 280. Installing an RPS-500p on a Flat Surface Caution Observe all ESD precautions when handling sensitive electronic equipment. When installing the RPS-500p power supply on a flat surface, we recommend installing the rubber feet to prevent the power supply from sliding.
Installing External Power Supplies Installing an STK-RPS-150PS Redundant Power Supply Figure 221: RPS Cable and AC Power Cord Connections for the RPS-500p 1 = PoE-compliant switch 4 = Redundant Power Supply connector on switch 2 = RPS cable 5 = AC power cord 3 = Redundant Power Supply connector on power supply 6 = AC power outlet with ground connection Note AC power cords and outlets vary depending on country. 3. Connect the AC power cord to the AC input power connector on the power supply. 4.
Required Tools Installing External Power Supplies To install an STK-RPS-150PS in an RPS shelf, see Installing an STK-RPS-150PS in an RPS Shelf on page 282. Required Tools A flat-blade screwdriver is required to install the STK-RPS-150CH2 or STK-RPS-150CH8 shelf and STKRPS-150PS power supplies. Unpacking the Shelf and Power Supply The shelf and the power supply are shipped separately. To unpack them, follow these steps: 1. Open the box and remove the packing material protecting the shelf or power supply.
Installing External Power Supplies Installing the RPS Shelf into the Rack Figure 223: STK-RPS-150PS Installation in an STK-RPS-150CH8 Shelf 1 = STK-RPS-150CH8 shelf 3 = Captive screws (2) 2 = STK-RPS-150PS power supply 4 = Shelf power supply slot 3. Fasten the power supply to the RPS shelf using the captive screws on the PSM front panel. 4. Repeat the two previous steps for each additional power supply. 5. Proceed to Installing the RPS Shelf into the Rack on page 283.
Installing the RPS Shelf into the Rack Installing External Power Supplies independently-fused circuits must be within 6 feet (1.8 meters) from the installation site. If there is an AC power source failure, this will prevent the powering down of redundant power supplies due to a single source power failure. • Power cords and type of outlet are dependent on the country. In the United States, one power cord with an NEMA 5-15P plug is provided with each STK-RPS-150PS.
Connecting the RPS Cable and AC Power Cord Installing External Power Supplies Figure 225: Fastening the STK-RPS-150CH8 to the Rack 1 = STK-RPS-150CH8 shelf 3 = Mounting screws 2 = Rails of rack Connecting the RPS Cable and AC Power Cord Important When performing this task, observe all of the precautions listen in Safety Considerations for Installing Power Supplies on page 264. The redundant power supply is connected to a switch using a 1-meter RPS cable.
Installing External Power Supplies Connecting the RPS Cable and AC Power Cord 1 = Redundant power supply connector 2 = AC power connector Figure 227: RPS and AC Power Cord Connections 1 = Switch 4 = Switch Redundant Power Supply connector (location varies depending upon switch) 2 = High speed RPS cable (1 meter) 5 = AC power cord (type varies depending on country) 3 = RPS Redundant Power Supply connector 6 = AC power outlet with ground connection (type varies depending on country) 2.
Installing External Power Supplies Installing an STK-RPS-1005PS Redundant Power Supply Installing an STK-RPS-1005PS Redundant Power Supply You can install the STK-RPS-1005PS power supply on a flat surface or in a 19-inch rack in the three-slot modular shelf (STK-RPS-1005CH3), which is available for purchase separately. Caution Observe all ESD precautions when handling sensitive electronic equipment. Locate the STK-RPS-1005PS within 6 ft (1.8 m) of its power source.
Installing an STK-RPS-1005PS in a Rack Installing External Power Supplies To install the STK-RPS-1005PS in a rack, follow these steps. 1. Secure the front of the three-slot modular shelf (STK-RPS-1005CH3) to the rack by screwing four rack screws into the mounting ears on the right and left front of the shelf. See Figure 4. Figure 228: Securing the Three-slot Modular Shelf to a Rack 2. Slide the power supply into an empty bay in the shelf. See Figure 229.
Installing External Power Supplies Installing an STK-RPS-1005PS on a Flat Surface Installing an STK-RPS-1005PS on a Flat Surface Caution Observe all ESD precautions when handling sensitive electronic equipment. When installing the STK-RPS-1005PS power supply on a flat surface, we recommend installing the rubber feet to prevent the power supply from sliding. Note Do not install the rubber feet on the power supply if you are installing the power supply in the three-slot modular shelf (STK-RPS-1005CH3).
Connecting the RPS Cable and AC Power Cord to an STK-RPS-1005PS Installing External Power Supplies Figure 230: RPS Cable and AC Power Cord Connections for the STK-RPS-1005PS 1 = STK-RPS-1005PS power supply 7 = AC power outlet with ground connection for switch 2 = Switch 8 = Redundant power supply connector on power supply 3 = RPS cable 9 = Redundant power supply connector on switch 4 = RPS AC power cord 10 = AC connector on power supply 5 = Switch AC power cord 11 = AC connector on switch 6 = AC
Installing External Power Supplies 3. 4. 5. 6. Installing a VX-RPS-1000 Redundant Power Supply Connect the AC power cord (4) to the AC input power connector on the power supply (10). Plug the AC power cord (4) into the main AC power outlet (6). Connect the second AC power cord (5) to the AC input power connector on the switch (11). Plug the AC power cord (5) into the main AC power outlet (7), preferably on a different circuit for better redundancy.
Installing up to Three VX-RPS-1000 Power Supplies on a Shelf Installing External Power Supplies 2. Attach the other bracket to the other side of the power supply. Figure 231: Long Brackets Attached to VX-RPS-1000 Power Supply 3. Align the holes at the end of each bracket with the rack post holes. 4. Secure the power supply to the rack with rack-mounting screws. 5.
Installing External Power Supplies Installing up to Three VX-RPS-1000 Power Supplies on a Shelf 2. Attach the shelf to the rack, using the screws provided, as shown in Figure 232.
Installing up to Three VX-RPS-1000 Power Supplies on a Shelf Installing External Power Supplies 3. Slide a power supply into an empty bay in the shelf, as shown in Figure 233. Figure 233: Inserting a VX-RPS-1000 Power Supply into the Shelf 4. Tighten the two retaining screws until the power supply is firmly attached to the shelf. 5. Connect a power cable (included with the power supply) to the output socket on the power supply and the RPS input connector on the rear of the V400 unit. 6.
Installing Expansion Modules Installing a V300 Virtual Port Extender on page 295 Installing a V400 Virtual Port Extender on page 317 Installing an LRM/MACsec Adapter on page 317 Installing a Half-Duplex to Full-Duplex Converter on page 321 Installing a Versatile Interface Module or Clock Module in an X460-G2 Series Switch on page 323 Installing a Versatile Interface Module in an X465 Series Switch on page 325 Install an SSD Module on page 326 This chapter describes how to install expansion modules: • • • •
Installing Expansion Modules Install a V300 Virtual Port Extender on a Wall The V300 Virtual Port Extender comes with two mounting brackets and screws for attaching them. Mount the equipment in a standard equipment rack, in either a front-mount or mid-mount configuration, in the same way you would mount a switch. To install a V300 Virtual Port Extender, follow these steps: 1. Attach the mounting brackets to the sides of the port extender using four screws (included) for each bracket. 2.
Installing Expansion Modules • Install a V300 Virtual Port Extender on a Wall M4 #2 Phillips screwdriver (magnetic srewdriver recommended) for non-PoE models Note The mounting surface, item, and hardware must be able to support the extender in all environmental conditions. The mounting surface must also be flat. Typical installation for the V300-8P-2T-W model include wall or table installations, in addition to VESA mounting. There are several orientations for installation on a wall.
Install a V300 Virtual Port Extender on a Wall Installing Expansion Modules Figure 234: V300-8P-2T-W Wall Mounting 2. Use the optional short bracket as a template and mark the holes to be used. Extreme recommends using 2 holes per short rack ear.
Installing Expansion Modules Install a V300 Virtual Port Extender on a Wall 3. For non-PoE models, after attaching the short brackets, attach the PSUs to the PSU mounting brackets using two cable ties.
Install a V300 Virtual Port Extender Under or on a Table Surface Installing Expansion Modules Figure 236: V300HT-8P/8T-2X Wall Mount with PSU 4. Drill the holes and attach the bracket using the provdied woodscrews and anchors. 5. Connect the LAN/Ethernet cables to the extender. 6. When power is connected, verify that the SYS LED on the port extender turns green.
Installing Expansion Modules Install a V300 Virtual Port Extender Under or on a Table Surface Figure 237: Table Surface Mounting There are several orientations for installtion under a table. To install a V300-8P-2T-W model under a table: 1. Attach the short mounting brackets (included in kit) to the sides of the port extender using four screws (included) for each bracket.
Install a V300 Virtual Port Extender in a VESA Mount Installing Expansion Modules 2. For non-PoE models, after attaching short brackets and PSU bracket to the V300, attach the PSU(s) to the PSU mounting bracket using two cable ties: Figure 239: V300-8P/8T-2X Under Table Mounting with PSU Figure 240: V300HT-8P/8T-2X Under Table Mounting with PSU 3. Secure the port extender to to the underside of the table using the provided 4 wood screws and 4 anchors. 4.
Installing Expansion Modules • Install a V300 Virtual Port Extender in a VESA Mount M4 #2 Phillips screwdriver (magnetic screwdriver recommended) The VESA mount comes with 4 screws and should be used when mounting the V300 Virtual Port Extender to a VESA mount for 75mm x 75mm or 35mm x 75mm mounting dimensions. To install a V300 Virtual Port Extender in a VESA Mount: 1.
Install a V300 in a Single Rack Mount Installing Expansion Modules 2. For non-PoE models, after attaching the PSU bracket to the V300, attach the PSU(s) to the PSU mounting brackets using two cable ties: Figure 242: V300-8P/8T-2X VESA Mounting with PSU 3. Connect the LAN/Ethernet cables to the extender. 4. When power is connected, verify that the SYS LED on the port extender turns green.
Installing Expansion Modules Install a V300 in a Single Rack Mount 4.
Install a V300 in a Single Rack Mount Installing Expansion Modules Figure 244: V300HT-8P/8T-2X Single Rack Mounting with PSUs 306 ExtremeSwitching Hardware Installation Guide
Install a V300 in a Dual Rack Mount Installing Expansion Modules 5. For a more secure attachment, attach the two PSU mounting brackets to the rack using customerprovided screws: Figure 245: V300HT-8P/8T-2X Single Rack Mounting with DIN Rail and PSUs 6. Alternatively, the PSU can be mounted to the long rack ear using cable ties.
Install a V300 in a Dual Rack Mount Installing Expansion Modules 5.
Installing Expansion Modules Install a V300 in a Dual Rack Mount Figure 247: V300HT-8P/8T Dual Rack Mounting with PSUs ExtremeSwitching Hardware Installation Guide 309
Install a V300 in a DIN Rail Mount Installing Expansion Modules 6.
Installing Expansion Modules Install a V300 in a DIN Rail Mount 3. Attach the PSUs to the DIN bracket using cable ties, and then attach the bracket to the DIN Rail: Figure 249: V300HT-8P-2X DIN Rail Mount with dual XN-ACPWR-320W-HT PSUs 4. For PSU 16807, attach the port extender to the DIN Rail using one DIN bracket and the screws provided.
Install a V300 in a DIN Rail Mount Installing Expansion Modules 5. Attach the PSUs directly to the DIN rail: Figure 250: V300HT-8P-2X DIN Rail Mount with dual 16807 PSUs 6. For XN-ACPWR-60W-HT-DIN, attach the port extender to the DIN Rail using one DIN bracket and the screws provided.
Installing Expansion Modules Install a V300-8P-2T-W Model in a Single or Dual Rack Mount 7.
Installing a V300-8P-2T-W Model in a DIN Rail Mount Installing Expansion Modules 4. Secure the port extender to each post with rack-mounting screws (not provided). 5. Connect the LAN/Ethernet cables to the extender. 6. When power is connected, verify that the SYS LED on the port extender turns green.
Installing Expansion Modules Installing a V300-8P-2T-W Model in a DIN Rail Mount 3. Align the DIN bracket with the DIN rail and attach the port extender: Figure 255: DIN Rail Mounting Option 1: Secure the Port Extender 4. For option 2, attach the DIN mounting bracket to the side panel of the port extender: Figure 256: Din Rail Mounting Option 2: Attach the Bracket 5.
Connecting the V300 Virtual Port Extender to Power Installing Expansion Modules 6. When power is connected, verify that the SYS LED on the port extender turns green. Connecting the V300 Virtual Port Extender to Power V300-8P-2W and V300-8T-2W models run on AC power with included power supply unit(s). V300HT-8P-2W and V300HT-8T-2W models can run on redundant power supplies (RPS). HT model power supplies are sold separately.
Installing a V400 Virtual Port Extender Installing Expansion Modules To attach the V300 switch to a redundant power source (HT models only), do the following: 1. Connect the RPS to the included screw terminal connector (use adequate AWG wire for DIN PSUs). 2. Plug the screw terminal connector into the port extender DC input (PSU2 recommended). 3.
Installing an LRM/MACsec Adapter Horizontally Installing Expansion Modules See the following sections for installation instructions. 1. Attaching the adapter to the rack so that it is oriented horizontally. See Installing an LRM/MACsec Adapter Horizontally on page 318. 2. Attaching up to five adapters to the five-slot mounting bracket (part no. 10966). See Installing LRM/MACsec Adapters in the Five-Slot Bracket on page 319. 3. Attaching the adapter to the rack so that it is oriented vertically.
Installing Expansion Modules Installing LRM/MACsec Adapters in the Five-Slot Bracket To install an LRM/MACsec Adapter horizontally in an equipment rack, follow these steps: 1. Using two small M 4 x 6.5 mm screws (included), attach the bracket to the holes in one side of the adapter so that the mounting ear extends away from the adapter. Figure 259 shows the bracket attached to the adapter. Figure 259: Attaching the Mounting Bracket to the LRM/MACsec Adapter 2.
Installing an LRM/MACsec Adapter Vertically Installing Expansion Modules 5. Connect the adapters to the switch, following the instructions in Connecting the LRM/MACsec Adapter to the Host Switch and to Power on page 320. Installing an LRM/MACsec Adapter Vertically Refer to Installing an LRM/MACsec Adapter on page 317 for installation options for the LRM/MACsec Adapter. To install an LRM/MACsec Adapter vertically in an equipment rack, follow these steps: 1.
Installing Expansion Modules Installing a Half-Duplex to Full-Duplex Converter Refer to the Security chapter in the ExtremeXOS 30.7 User Guide for information about configuring the host switch to work with the LRM/MACsec Adapter. Installing a Half-Duplex to Full-Duplex Converter The following options are available for installing the Half-Duplex to Full-Duplex Converter: 1. On a shelf that is mounted in an equipment rack. (The shelf can accommodate up to three converters.
Mounting a Half-Duplex to Full-Duplex Converter on a Wall Installing Expansion Modules 3. Connect the converter to its power adapter, following the instructions in Connecting a Half-Duplex to Full-Duplex Converter to its Power Adapter on page 322. 4. Connect the full-duplex ports (FD1 - FD4) to the switch. 5. Connect the half-duplex ports (HD1 - HD4) to your half-duplex devices.
Installing Expansion Modules Installing a Versatile Interface Module or Clock Module in an X460-G2 Series Switch Figure 260: Half-Duplex to Full-Duplex Converter: Side Panels 1 = Kensington lock point 3 = DC power connector 2 = Grounding point To connect your Half-Duplex to Full-Duplex Converter to power, follow these steps: 1. Attach a grounding wire to the grounding point on the side of the converter. 2. Connect a DC power cable to the DC input socket on the same side of the converter. 3.
Installing a Versatile Interface Module or Clock Module in an X460-G2 Series Switch Installing Expansion Modules The installation procedure is the same for all X460-G2 VIMs and clock modules, with the exception that the VIMs use slotted retaining screws and the clock module uses Phillips retaining screws. To install a versatile interface module or clock module, follow these steps: 1. Attach an ESD-preventive wrist strap to your wrist and connect the metal end to an appropriate ground point on the rack. 2.
Installing Expansion Modules Installing a Versatile Interface Module in an X465 Series Switch 1 = clock module retaining screw locations Installing a Versatile Interface Module in an X465 Series Switch This section describes how to install a versatile interface module (VIM5) in the front slot of an X465 switch. You need the following tools and materials to install a VIM5: • • ESD-preventive wrist strap #2 Phillips screwdriver Caution Extreme Networks VIM5s are not hot-swappable.
Installing Expansion Modules Install an SSD Module b. Insert and tighten the retaining screws you removed in step 3.a on page 325, using the screws provided. Figure 265: Tighten Screws on the Inserted VIM5 Module 1 = VIM5 module retaining screw locations Install an SSD Module This section describes how to install a Solid-state Drive (SSD) module in the rear slot of a switch.
Install an SSD Module Installing Expansion Modules 5. Carefully slide the SSD module into the slot on the rear panel until it is firmly in place. Figure 267: Insert SSD Module 6. Secure the SSD module using the screws provided.
Replacing AC Power Supplies Replacing a Summit 300 W AC Power Supply on page 328 Replacing a Summit 350 W or 715 W AC Power Supply on page 330 Replacing a Summit 450 W or 550 W AC Power Supply on page 332 Replacing a 750 W AC Power Supply on page 334 Replacing a Summit 770 W AC Power Supply on page 338 Replacing a Summit 1100 W AC Power Supply on page 340 Replacing an ExtremeSwitching 2000 W AC Power Supply on page 341 Removing an RPS-150XT Redundant Power Supply on page 343 Removing an RPS-500p Redundant P
Replacing AC Power Supplies Replacing a Summit 300 W AC Power Supply 3. Push the latching tab toward the power supply handle and pull outward on the handle to disengage the power supply internal connectors. Figure 268: Removing a Summit 300 W AC Power Supply 4. Carefully slide the power supply the rest of the way out of the switch. Caution Power supplies can become very hot during operation. Wear thermal protective gloves when you remove a power supply from an operating switch.
Replacing a Summit 350 W or 715 W AC Power Supply Replacing AC Power Supplies 6. Carefully slide the power supply all the way into the power supply bay. See Figure 269 Figure 269: Installing a Summit 300 W AC Power Supply 7. Push the power supply in until the latch snaps into place. Caution Do not slam the power supply into the switch. 8. Connect the AC power cord to the input connector on the power supply and rotate the wire clip into place over the power cord connector. 9.
Replacing AC Power Supplies Replacing a Summit 350 W or 715 W AC Power Supply To replace a Summit 350 W or 715 W AC power supply, follow these steps: 1. Disconnect the AC power cord from the wall outlet and from the power supply. 2. Note the orientation of the installed power supply, and the location of the latching tab at the right of the unit. 3. Push the latching tab toward the power supply handle and pull outward on the handle to disengage the power supply internal connectors. See Figure 270.
Replacing a Summit 450 W or 550 W AC Power Supply Replacing AC Power Supplies 7. Push the power supply in until the latch snaps into place. Caution Do not slam the power supply into the switch. Figure 271: Installing A Summit 350 W or 715 W AC Power Supply 8. Connect the power cord to the power supply and to a grounded AC power outlet. Warning Always be sure that the source outlet is properly grounded before plugging the AC power cord into the AC power supply. 9.
Replacing AC Power Supplies Replacing a Summit 450 W or 550 W AC Power Supply 3. Push the latching tab toward the power supply handle and pull outward on the handle to disengage the power supply internal connectors. See Figure 272. Figure 272: Removing a 450 W or 550 W AC Power Supply 4. Carefully slide the power supply the rest of the way out of the switch. Caution Power supplies can become very hot during operation. Wear thermal protective gloves when you remove a power supply from an operating switch.
Replacing a 750 W AC Power Supply Replacing AC Power Supplies 6. Carefully slide the power supply all the way into the power supply bay. See Figure 273. Figure 273: Installing a 450 W or 550 W AC Power Supply 7. Push the power supply in until the latch snaps into place. Caution Do not slam the power supply into the switch. 8. Connect the power cord to the power supply and to a grounded AC power outlet.
Replacing a 750 W AC Power Supply Replacing AC Power Supplies 2. Note the orientation of the installed power supply. 3. Push the latching tab toward the power supply handle and pull outward on the handle to disengage the power supply internal connectors. See Figure 274. Figure 274: Removing a 750 W AC Power Supply 4. Carefully slide the power supply the rest of the way out of the switch. Caution Power supplies can become very hot during operation.
Replacing a 750 W AC Power Supply Replacing AC Power Supplies 6. Carefully slide the power supply all the way into the power supply bay. See Figure 275. Figure 275: Installing a 750 W AC Power Supply 7. Push the power supply in until the latch snaps into place. Caution Do not slam the power supply into the switch.
Replacing a 750 W AC Power Supply Replacing AC Power Supplies 8. If necessary, slide the plastic cord retainer farther away from the back of the switch. See Figure 276. Figure 276: Moving the Power Cord Retainer 9. Connect the AC power cord to the input connector. See Figure 277.
Replacing a Summit 770 W AC Power Supply Replacing AC Power Supplies 10. Open the clip and slip it over the barrel of the connector. See Figure 278. Figure 278: Attaching the Power Cord Retainer 11. Snap the clip firmly around the connector. 12. Connect the other end of the power cord to an AC power outlet. Replacing a Summit 770 W AC Power Supply The Summit 770 W AC power supplies are compatible with the ExtremeSwitching X690 and X870 series switches.
Replacing AC Power Supplies Replacing a Summit 770 W AC Power Supply 3. Push the latching tab toward the power supply handle and pull outward on the handle to disengage the power supply internal connectors. See Figure 279. Figure 279: Removing a Summit 770 W AC Power Supply 4. Carefully slide the power supply the rest of the way out of the switch. Caution Power supplies can become very hot during operation. Wear thermal protective gloves when you remove a power supply from an operating switch.
Replacing a Summit 1100 W AC Power Supply Replacing AC Power Supplies 8. Connect the power cord to the power supply and to a grounded AC power outlet. Warning Always be sure that the source outlet is properly grounded before plugging the AC power cord into the AC power supply. 9. If the power supply is equipped with a power cord retainer, use the retainer to secure the power cord to the power supply.
Replacing AC Power Supplies Replacing an ExtremeSwitching 2000 W AC Power Supply 4. Carefully slide the power supply the rest of the way out of the switch. Caution Power supplies can become very hot during operation. Wear thermal protective gloves when you remove a power supply from an operating switch. Note If you are not installing a replacement power supply, install a cover over the unoccupied power supply bay. Unoccupied bays must always be covered to maintain proper system ventilation and EMI levels.
Replacing an ExtremeSwitching 2000 W AC Power Supply Replacing AC Power Supplies These switches have two bays for hot-swappable power supplies. In a switch with a redundant power configuration, you can replace one Summit or ExtremeSwitching AC power supply without powering down the switch.
Replacing AC Power Supplies Removing an RPS-150XT Redundant Power Supply 6. Carefully slide the power supply all the way into the power supply bay. Figure 284: Installing an ExtremeSwitching 2000 W AC Power Supply 7. Push the power supply in until the latch snaps into place. Caution Do not slam the power supply into the switch. 8. Connect the power cord to the power supply and to a grounded AC power outlet.
Removing an RPS-500p Redundant Power Supply Replacing AC Power Supplies b. Carefully slide the power supply out of the shelf. 5. If you want to replace the power supply with another one, follow the instructions in Installing an RPS-150XT Redundant Power Supply on page 274. Removing an RPS-500p Redundant Power Supply To remove an installed RPS-500p that is attached to a switch, follow these steps. Caution Observe all ESD precautions when handling sensitive electronic equipment. 1.
Replacing AC Power Supplies Removing a VX-RPS-1000 Redundant Power Supply Note The switch should not be powered on during installation or removal of the power supply. This is not a hot-swap procedure. Follow the steps in the order specified. 1. Unplug the AC power cord from the AC power source first and then from the power supply. 2. Disconnect the RPS cable from the Redundant Power Supply connector at the rear of the power supply. 3.
Replacing DC Power Supplies Replacing a Summit 300 W DC Power Supply on page 346 Replacing a Summit 450 W or 550 W DC Power Supply on page 353 Replacing a 750 W Internal DC Power Supply on page 358 Replacing a Summit 1100 W DC Power Supply on page 363 This chapter describes how to replace internal DC power supplies in an Extreme Networks switch. These switches have two bays for hot-swappable power supplies.
Replacing DC Power Supplies Installing a Replacement 300 W DC Power Supply 3. Disconnect the ground wire: a. Remove the screw that secures the ground wire to the power supply. b. Move the wire away from the power supply. 4. Push the latching tab toward the power supply handle and pull outward on the handle to disengage the power supply internal connectors. See Figure 285. Figure 285: Removing a Summit 300 W DC Power Supply (Front-to-Back Model 10933 Shown) 5.
Connecting the Ground Wire to a 300 W DC Power Supply Replacing DC Power Supplies 3. Push the power supply in until the latch snaps into place. Caution Do not slam the power supply into the switch. 4. Reconnect the ground wire as described in Connecting the Ground Wire to a 300 W DC Power Supply on page 348. Connecting the Ground Wire to a 300 W DC Power Supply To connect the ground wire to the Summit 300 W DC power supply, follow these steps: 1. Verify that the DC circuit is de-energized. 2.
Replacing DC Power Supplies Connecting DC Power Cables to a 300 W DC Power Supply Connecting the DC Power Cables to a +24 V Source To connect the DC power cables for the 300 W Summit DC power supply (part no. 10933 or 10944) to a +24 V source, follow these steps: 1. Verify that the DC circuit is de-energized. 2. Attach an ESD-preventive wrist strap to your bare wrist and connect the metal end to an appropriate ground point on the rack. 3. Verify that the ground wire is attached to the power supply.
Connecting DC Power Cables to a 300 W DC Power Supply Replacing DC Power Supplies c. Slide the spade terminal of the positive wire (+24 V) under the captive square washer on the positive terminal (labeled +24 V). See Figure 288. +24V -24V (+) (–) Figure 288: Connecting the DC Power Cables: Part 1 d. Tighten both screws on the terminal block to 15.9 in-lb (1.8 N-m) as shown in Figure 289. +24V -24V (+) (–) Figure 289: Connecting the DC Power Cables: Part 2 6.
Replacing DC Power Supplies Connecting DC Power Cables to a 300 W DC Power Supply Connecting the DC Power Cables to a -48 V Source To connect the DC power cables for the 300 W Summit DC power supply (part no. 10933 or 10944) to a -48 V source, follow these steps: 1. Verify that the DC circuit is de-energized. 2. Attach an ESD-preventive wrist strap to your bare wrist and connect the metal end to an appropriate ground point on the rack. 3. Verify that the ground wire is attached to the power supply.
Connecting DC Power Cables to a 300 W DC Power Supply Replacing DC Power Supplies c. Slide the spade terminal of the positive wire (–48 V RTN) under the captive square washer on the positive terminal (labeled RTN). See Figure 290. RTN -48V (+) (–) Figure 290: Connecting the DC Power Cables: Part 1 d. Tighten both screws on the terminal block to 15.9 in-lb (1.8 N-m) as shown in Figure 291. Figure 291: Connecting the DC Power Cables: Part 2 6. Slide the cover into place over the terminal block. 7.
Replacing a Summit 450 W or 550 W DC Power Supply Replacing DC Power Supplies Replacing a Summit 450 W or 550 W DC Power Supply Summit 550 W power supply units (PSUs) are available with either front-to-back or back-to-front airflow. If you install two PSUs, both must have the same airflow direction. Note You cannot combine power supplies of different wattages in the same switch.
Installing a Replacement 450 W or 550 W DC Power Supply Replacing DC Power Supplies 5. Push the latching tab toward the power supply handle and pull outward on the handle to disengage the power supply internal connectors. See Figure 292. Figure 292: Removing a Summit 450 W or 550 W Power Supply 6. Carefully slide the power supply the rest of the way out of the switch. 7. If a replacement power supply will not be installed, install a cover over the unoccupied power supply bay.
Replacing DC Power Supplies Connecting the Ground Wire to a 450 W or 550 W DC Power Supply 3. Push the power supply in until the latch snaps into place. Caution Do not slam the power supply into the switch. 4. Reconnect the ground wire as described in Connecting the Ground Wire to a 450 W or 550 W DC Power Supply on page 355.
Connecting DC Power Cables to a 450 W or 550 W DC Power Supply Replacing DC Power Supplies c. Tighten the screw to 7 in‑lb (0.79 N m). Figure 295: Securing the Ground Wire 5. Connect the other end of the wire to a known reliable earth ground point at your site. 6. Connect the switch to the DC power source. See the instructions in Connecting DC Power Cables to a 450 W or 550 W DC Power Supply on page 356.
Connecting DC Power Cables to a 450 W or 550 W DC Power Supply Replacing DC Power Supplies c. Slide the spade terminal of the positive wire (–48 V RTN) under the captive square washer on the positive terminal (labeled +). (+) (–) -48V RTN SH_161 Figure 296: Connecting the DC Power Cables: Part 1 d. Tighten both screws on the terminal block to 7 in‑lb (0.79 N m), as shown in Figure 297. (+) (–) -48V RTN SH_162 Figure 297: Connecting the DC Power Cables: Part 2 5.
Replacing a 750 W Internal DC Power Supply Replacing DC Power Supplies Replacing a 750 W Internal DC Power Supply The ExtremeSwitching X695 switch can accommodate two 750 W DC power supply units (PSU) with either front-to-back or back-to-front airflow. Note For information on replacing those units, see Install a Replacement 750 W DC Power Supply on page 359. Bear in mind that you cannot combine power supplies of different wattages in the same switch.
Install a Replacement 750 W DC Power Supply Replacing DC Power Supplies 4. Push the latching tab toward the power supply handle and pull outward on the handle to disengage the power supply internal connectors. Figure 298: Removing a Summit 750 W Power Supply 5. Carefully slide the power supply the rest of the way out of the switch. 6. If a replacement power supply will not be installed, install a cover over the unoccupied power supply bay.
Connect the Ground Wire to an 750 W DC Power Supply Replacing DC Power Supplies 3. Carefully slide the power supply all the way into the power supply bay. Figure 299: Installing an 750 W DC Power Supply 4. Push the power supply in until the latch snaps into place. Caution Do not slam the power supply into the switch. 5. Reconnect the ground wire as described in Connect the Ground Wire to an 750 W DC Power Supply on page 360.
Replacing DC Power Supplies Connect DC Power Cables to an 750 W DC Power Supply 4. Connect the ground wire to the grounding post as follows: a. Remove the nut from the grounding post. b. Slide the ring terminal of the ground wire onto the grounding post (callout 1 in the following figure). Figure 300: Securing the Ground Wire c. Screw the nut onto the grounding post (callout 2). d. Tighten the nut to 7 in‑lb (0.79 N m). 5.
Connect DC Power Cables to an 750 W DC Power Supply Replacing DC Power Supplies 3. Verify that the ground wire is attached to the power supply. See Connect the Ground Wire to an 750 W DC Power Supply on page 360. 4. Insert a screwdriver into both slots on the top of the terminal connector and loosen the screws enough to accommodate a stripped power input cable. 5. Insert the DC power cables into the connector. a.
Replacing DC Power Supplies Replacing a Summit 1100 W DC Power Supply 6. Insert the connector into the slot on the power supply. Figure 302: Inserting the Connector into the Power Supply 7. Connect the cables to the DC source voltage, using hardware appropriate to the installation site and following local and national electrical codes. 8. Energize the DC circuit.
Removing an 1100 W DC Power Supply Replacing DC Power Supplies Removing an 1100 W DC Power Supply To remove an installed 1100 W DC power supply, follow these steps: Caution The DC power supply may be hot to the touch; use thermal protective gloves when handling the power supply during removal. 1. De-energize the DC circuit. 2. Disconnect the DC power cables: a. Pull the cover off the terminal block. b. Loosen the screws that secure the cable terminals to the terminal block. c.
Install a Replacement 1100 W DC Power Supply Replacing DC Power Supplies 6. If a replacement power supply will not be installed, install a cover over the unoccupied power supply bay. Note Unoccupied power supply bays must always be covered to maintain proper system ventilation and EMI levels. Install a Replacement 1100 W DC Power Supply To install a replacement 1100 W DC power supply unit (PSU), follow these steps: 1. Verify that the replacement power supply is oriented the same as the one you removed.
Connect the Ground Wire to an 1100 W DC Power Supply Replacing DC Power Supplies Connect the Ground Wire to an 1100 W DC Power Supply To connect the ground wire to the 1100 W DC power supply, follow these steps: Warning Be sure to connect the ground wire before you connect any power cables to the power supply. 1. Verify that the DC circuit is de-energized. 2. Attach an ESD-preventive wrist strap to your bare wrist and connect the metal end to an appropriate ground point on the rack. 3.
Replacing DC Power Supplies Connect DC Power Cables to an 1100 W DC Power Supply Connect DC Power Cables to an 1100 W DC Power Supply The DC power connection at your facility must be made by a qualified electrician. Warning Always make sure that the DC circuit is de-energized before connecting or disconnecting the DC power cables on the 1100 W DC power supply. Caution Provide proper connection and strain relief on the DC power cables in accordance with all local and national electrical codes.
Connect DC Power Cables to an 1100 W DC Power Supply Replacing DC Power Supplies c. Slide the end of the negative wire (–48 V) into the negative terminal (labeled –, on the right side of the connector). d. Tighten the screw on the top of the negative terminal connector to between 4.4 in‑lb (0.50 N m) and 7.1 in‑lb (0.8 N m). 6. Insert the connector into the slot on the power supply. See Figure 307. Figure 307: Inserting the Connector into the Power Supply 7.
Replacing Fan Modules Pre-Installation Requirements on page 369 Airflow Direction Requirements on page 369 Replacing a Fan Module on page 370 For switches with replaceable fan modules, refer to the following information to replace the fan modules. Illustrations in this chapter show switches that might not be identical to the ones you are using. However, the procedure for replacing a fan module is the same for all ExtremeSwitching switches.
Replacing a Fan Module Replacing Fan Modules Replacing a Fan Module To replace the fan module in a switch, do the following: 1. Completely loosen the captive retaining screws on the fan module. On most switch models, the fan module has two retaining screws at the bottom corners of the module, as shown in Figure 308. On some switch models, the fan module has a single retaining screw at the top right corner of the module. 2. Slide the fan module out of the switch and set it aside.
Removing and Replacing Expansion Modules Removing or Replacing a V300 Virtual Port Extender on page 371 Removing or Replacing a V400 Virtual Port Extender on page 371 Removing or Replacing an LRM/MACsec Adapter on page 372 Removing or Replacing a Half-Duplex to Full-Duplex Converter on page 372 Replacing a Versatile Interface Module, Solid-state Drive, or Clock Module in an X460-G2 Series or X465 Series Switch on page 373 This chapter describes how to replace the following equipment: • • • • • Removing or
Removing or Replacing an LRM/MACsec Adapter Removing and Replacing Expansion Modules To replace a V400 Virtual Port Extender or remove it from service, follow these steps: 1. Disconnect the port extender from its power source and, if applicable, from its redundant power supply. 2. Support the port extender while you remove the rack-mounting screws that hold the front mounting brackets in place against the rack posts. 3. Carefully slide the port extender out of the rack. 4.
Removing and Replacing Expansion Modules Replacing a Versatile Interface Module, Solid-state Drive, or Clock Module in an X460-G2 Series or X465 Series Switch To replace a Half-Duplex to Full-Duplex Converter or remove it from service, follow these steps: 1. Disconnect the half-duplex ports (HD1 - HD4) from your half-duplex devices. 2. Disconnect the full-duplex ports (FD1 - FD4) from the switch. 3. Disconnect the converter to its power adapter. a. Disconnect the power adapter from its AC power source. b.
Replacing a Versatile Interface Module, Solid-state Drive, or Clock Module in an X460-G2 Series or X465 Series Switch Removing and Replacing Expansion Modules b. Insert and tighten the retaining screws you removed in step 3. The clock module uses Phillips screws and the VIM and SSD modules use slotted screws.
Removing Switches from Service Removing an AC Power Supply on page 375 Removing a DC Power Supply on page 376 Removing a Switch from a Rack on page 377 Removing a switch from service is a two-step process: 1. Disconnect the switch from its power source, following these steps as applicable: • Disconnect and remove the switch's removable AC power supply. See Removing an AC Power Supply on page 375. • Disconnect and remove the switch's removable DC power supply. See Removing a DC Power Supply on page 376.
Removing a DC Power Supply Removing Switches from Service 2. Push the latching tab to the right as you pull outward on the handle to disengage the power supply internal connectors. Figure 313: Removing an AC Power Supply 3. Carefully slide the power supply the rest of the way out of the switch. Removing a DC Power Supply To remove a DC power supply unit (PSU) from a switch, follow these steps: 1. De-energize the DC circuit.
Removing a Switch from a Rack Removing Switches from Service 4. Push the latching tab to the left as you pull outward on the handle to disengage the power supply internal connectors. Figure 314: Removing a DC Power Supply 5. Carefully slide the power supply the rest of the way out of the switch. Removing a Switch from a Rack Before removing a switch from a rack, verify that: • All removable power supplies have been removed.
Removing a Switch from a Rack Removing Switches from Service Figure 315: Removing a Front-Mounted Switch from a Two-Post Rack Figure 316: Removing the Switch from a Four-Post Rack 3. Place the switch on a secure, flat surface. 4. Using a #2 Phillips screwdriver, remove the front mounting brackets from the sides of the switch. 5. For four-post installations, remove the rear mounting brackets from the rear rack posts.
Technical Specifications ExtremeSwitching X435 Series Switches Technical Specifications on page 380 ExtremeSwitching X440-G2 Series Switches Technical Specifications on page 386 ExtremeSwitching X450-G2 Series Switches Technical Specifications on page 392 ExtremeSwitching X460-G2 Series Switches Technical Specifications on page 398 ExtremeSwitching X465 Series Switches Technical Specifications on page 408 ExtremeSwitching X590 Series Switches Technical Specifications on page 417 ExtremeSwitching X620 Series
ExtremeSwitching X435 Series Switches Technical Specifications Technical Specifications 3-Slot Modular Shelves: Technical Specifications on page 475 Power Cord Requirements for AC-Powered Switches and AC Power Supplies on page 476 Console Connector Pinouts on page 476 This section lists technical specifications for the hardware products described in this document.
ExtremeSwitching X435 Series Switches Technical Specifications Technical Specifications Table 105: X435 Unpackaged Weight (With Blanks; No PSU or Fan Module) (continued) X435-24T-4S switch 6.5 lb (2.95 kg) X435-24P-4S switch 7.67 lb (3.48 kg) Table 106: X435 Packaged Dimensions X435-8T-4S switch X435-8P-4S switch X435-8P-2T-W switch Height: 5.24 inches (13.3 cm) Width: 16.78 inches (42.6 cm) Length: 12.73 inches (32.3 cm) X435-24T-4S switch X435-24P-4S switch Height: 5.20 inches (13.
Power Options Technical Specifications Table 109: X435-24P-4S Fan Speed and Power Consumption Fan Speed Fan Module RPM (typical) Power Inlet Fan Outlet Fan Typical Full 16,000 (typ) 13,500 (typ) 15.8W per module* Low 3,200 (typ) 2,800 (typ) * Some units are equipped with (1) fan module, while others are equipped with 2. Total fan power is equal to the number of installed fan modules multiplied by the fan power for each module.
Technical Specifications Power Options Table 112: Power Cords Extreme Networks equipment does not ship with power cords. Click the following link for locating the correct power cord for purchase and use on specific Extreme Networks equipment. Specifications for power cords in each country are also provided within this link allowing end user to purchase cords locally. www.extremenetworks.
Standards and Environmental Data Technical Specifications Table 114: X435-8P-2T-W PoE Power Budget (continued) Source Wattage (P9 + P10) Output (W) 60+90 85W 90+90 100W Table 115: CPU, Memory CPU/Memory ARM Cortex A9, 1.2 GHz CPU 512MB DDR3 memory 128MB Flash Memory 512KB packet buffer per chip Standards and Environmental Data Table 116: Safety Standards North American Safety of ITE UL 60950-1 2nd Ed., A2:2014 (US) CSA 22.2 No. 60950-1-07 2nd Ed. 2014-10(Canada) Complies with FCC 21CFR 1040.
Technical Specifications Standards and Environmental Data Table 117: EMI/EMC Standards (continued) International EMC certifications CISPR 32: 2015, Class A (International Emissions) EN 55024:1998+A1:2001+A2:2003 Class A (International Immunity) IEC/EN 61000-4-2:2008 Electrostatic Discharge, 8kV Contact, 15 kV Air, Criteria A IEC/EN 61000-4-3:2008 Radiated Immunity 10V/m, Criteria IEC/EN 61000-4-4:2004 Transient Burst, 1 kV, Criteria A IEC/EN 61000-4-5:2005 Surge, 2 kV L-L, 2 kV L-G, Level 3, Criteria A I
ExtremeSwitching X440-G2 Series Switches Technical Specifications Technical Specifications Table 120: Environmental Data (continued) Operational random vibration: 3 to 500 Hz at 1.
Technical Specifications Weight (Unpackaged) Weight (Unpackaged) Table 122: Weight X440-G2-12t-10GE4 5.82 lb (2.64 kg) X440-G2-12p-10GE4 6.66 lb (3.04 kg) X440-G2-24t-10GE4 8.07 lb (3.66 kg) X440-G2-24p-10GE4 9.44 lb (4.28 kg) X440-G2-24x-10GE4 8.22 lb (3.77 kg) X440-G2-48t-10GE4 11.22 lb (5.09 kg) X440-G2-48p-10GE4 14.55 lb (6.60 kg) X440-G2-24t-10GE4-DC 8.07 lb (3.66 kg) X440-G2-48t-10GE4-DC 11.20 lb (5.08 kg) X440-G2-12t8fx-GE4 6.50 lb (2.95 kg) X440-G2-24fx-GE4 8.66 lb (3.
Fan and Acoustic Sound Technical Specifications Table 124: Packaged Weight (continued) X440-G2-48p-10GE4 19.62 lb (9.00 kg) X440-G2-24t-10GE4-DC 11.35 lb (5.21 kg) X440-G2-48t-10GE4-DC 16.23 lb (7.44 kg) X440-G2-12t8fx-GE4 9.57 lb (4.39 kg) X440-G2-24fx-GE4 12.08 lb (5.54 kg) X440-G2-24t-GE4 11.33 lb (5.20 kg) Fan and Acoustic Sound Table 125: Fan and Acoustic Sound Bystander Sound Pressure 6 Declared Sound Power in dB(A) (LWAd) 6 in bels 6 388 X440-G2-12t-10GE4 14.7 fan off 2.
Technical Specifications Power Specifications Power Specifications Table 126: Power Specifications Minimum 7 Heat Dissipation (BTU/hr) Minimum 7 Power Consumption (Watts) Maximum 7 Heat Maximum 7 Dissipation Power (BTU/hr) Consumption (Watts) X440-G2-12t-10GE4 52 15 109 32 X440-G2-24t-10GE4 87 26 136 40 X440-G2-48t-10GE4 141 41 208 61 X440-G2-12p-10GE4 72 21 216 (@ 200 W PoE) 264 X440-G2-24p-10GE4 121 35 410 (@ 380 W PoE) 500 X440-G2-48p-10GE4 196 53 755 (@ 740 W PoE) 961
PoE + Power Budget Technical Specifications PoE + Power Budget Table 128: PoE + Power Budget Internal Power Supply External RPS X440-G2-12p-10GE4 200 W 200 W - Redundant power only X440-G2-24p-10GE4 380 W 380 W - Redundant power only X440-G2-48p-10GE4 740 W 1440 W - Additive power 740 W - Redundant power External Redundant Power Supplies for Non-PoE Switches All X440-G2 series non-PoE switches ship with one fixed internal power supply.
Technical Specifications Environmental Data Environmental Data Table 130: Environmental Data Environmental specifications EN/ETSI 300 019-2-1 v2.1.2 - Class 1.2 Storage EN/ETSI 300 019-2-2 v2.1.2 - Class 2.3 Transportation EN/ETSI 300 019-2-3 v2.1.2 - Class 3.1e Operational EN/ETSI 300 753 (1997-10) - Acoustic Noise ASTM D3580 Random Vibration Unpackaged 1.
ExtremeSwitching X450-G2 Series Switches Technical Specifications Technical Specifications Table 132: EMI/EMC Standards (continued) International EMC certifications CISPR 22: 2006 Ed 5.2, Class A (International Emissions) CISPR 24:A2:2003 Class A (International Immunity) IEC 61000-4-2:2008/EN 61000-4-2:2009 Electrostatic Discharge, 8kV Contact, 15 kV Air, Criteria A IEC 61000-4-3:2008/EN 61000-4-3:2006+A1:2008 Radiated Immunity 10V/m, Criteria A IEC 61000-4-4:2004 am1 ed.2.
Technical Specifications • • ExtremeSwitching X450-G2 Series Switches Technical Specifications X450-G2-48p-GE4 X450-G2-48p-10GE4 Table 135: X450-G2 Unpackaged Dimensions X450-G2-24t-GE4 X450-G2-24t-10GE4 X450-G2-48t-GE4 X450-G2-48t-10GE4 X450-G2-24p-GE4 X450-G2-24p-10GE4 X450-G2-48p-GE4 X450-G2-48p-10GE4 Height: 1.73 inches (4.4 cm) Width: 17.4 inches (44.1 cm) Depth: 19.2 inches (43.2 cm) Table 136: X450-G2 Unpackaged Weight X450-G2-24t-GE4 X450-G2-24t-10GE4 13.71 lb (6.
ExtremeSwitching X450-G2 Series Switches Technical Specifications Technical Specifications Table 139: Fan and Acoustic Noise Switch Model Bystander Sound Pressure Declared Sound Power X450-G2-24t-GE4 X450-G2-24t-10GE4 Fixed AC or DC power supply with front-to-back (FB) airflow 49.8 dB(A), 0°C to 39°C 6.1 bels, 0°C to 39°C 64.9 dB(A), 50°C 7.6 bels, 50°C X450-G2-48t-GE4 X450-G2-48t-10GE4 Fixed AC or DC power supply with front-to-back (FB) airflow 49.9 dB(A), 0°C to 39°C 6.1 bels, 0°C to 39°C 64.
Technical Specifications Power Options Power Options Table 141: X450-G2 Power Supply Options Switch Model Power Supply Fixed power supply with front-to-back airflow X450-G2-24t-GE4 X450-G2-24t-10GE4 100-240 V, 50/60 Hz, 1.0 A X450-G2-48t-GE4 X450-G2-48t-10GE4 100-240 V, 50/60 Hz, 1.0 A Modular power supply with front-to-back airflow X450-G2-24p-GE4 X450-G2-24p-10GE4 1100 W AC PS FB (front-to-back) Part # 10941, Model: PSSF112101A 100-127V/200-240 V, 50/60 Hz, 10.0 A/5.
Power Options Technical Specifications Table 143: X450-G2 PoE Power Budget Switch Model 1 PSU of 715 W 1 PSU of 1100 W 2 PSUs of 715 W 1 PSU of 715 W & 1 PSU of 1100 W 2 PSUs of 1100 W X450-G2-24p-GE4 500 W 720 W 720 W 720 W 720 W X450-G2-24p-10GE4 500 W 720 W 720 W 720 W 720 W X450-G2-48p-GE4 500 W 850 W 1031 W 1350 W 1440 W X450-G2-48p-10GE4 500 W 850 W 1031 W 1350 W 1440 W X450-G2-24p-GE4 16 ports @ 30 W 24 ports @ 30 W 24 ports @ 30 W 24 ports @ 30 W 24 ports @ 30 W 24 p
Technical Specifications Standards and Environmental Data Standards and Environmental Data Table 145: Safety Standards North American Safety of ITE UL 60950-1 1st Ed., Listed Device (US) CSA 22.2 #60950-1-07 2nd Ed.(Canada) Complies with FCC 21CFR 1040.10 (US Laser Safety) CDRH Letter of Approval (US FDA Approval) European Safety of ITE EN 60950-1:2006 2nd Ed.
ExtremeSwitching X460-G2 Series Switches Technical Specifications Technical Specifications Table 148: IEEE 802.3 Media Access Standards (continued) IEEE 802.3ab 1000BASE-T IEEE 802.3z 1000BASE-X IEEE 802.3ae 10GBASE-X IEEE 802.3at PoE Plus IEEE 802.3az (EEE) Table 149: Environmental Data Environmental standards EN/ETSI 300 019-2-1 v2.1.2 (2000 - 2009) - Class 1.2 Storage EN/ETSI 300 019-2-2 v2.1.2 (1999 - 09) - Class 2.3 Transportation EN/ETSI 300 019-2-3 v2.1.2 (2003 - 04) - Class 3.
Technical Specifications • • ExtremeSwitching X460-G2 Series Switches Technical Specifications X460-G2-48p-GE4 switch X460-G2-48p-10GE4 switch Table 150: X460-G2 Unpackaged Dimensions X460-G2-24t-GE4 X460-G2-24t-10GE4 X460-G2-24x-10GE4 X460-G2-48t-GE4 X460-G2-48t-10GE4 X460-G2-24t-24ht-10GE4 X460-G2-48x-10GE4 Height: 1.73 inches (4.4 cm) Width: 17.38 inches (44.1 cm) Length: 16.94 inches (43.
ExtremeSwitching X460-G2 Series Switches Technical Specifications Technical Specifications Table 152: X460-G2 Packaged Dimensions (continued) X460-G2-16mp-32p-10GE4 Table 153: X460-G2 Packaged Weight (No PSU or Fan Module) X460-G2-24t-GE4 X460-G2-24t-10GE4 18.83 lb (8.56 kg) X460-G2-24x-10GE4 18.70 lb (8.50 kg) X460-G2-24p-GE4 X460-G2-24p-10GE4 21.83 lb (9.92 kg) X460-G2-48t-GE4 X460-G2-48t-10GE4 19.27 lb (8.76 kg) X460-G2-48x-10GE4 18.96 lb (8.62 kg) X460-G2-48p-GE4 X460-G2-48p-10GE4 22.
Technical Specifications ExtremeSwitching X460-G2 Series Switches Technical Specifications Table 155: Fan and Acoustic Noise Switch Model Bystander Sound Pressure X460-G2-24t-GE4 49.1 dB(A), 0°C to 45°C X460-G2-24t-10GE4 54.9 dB(A), 50°C Dual 300 W AC or DC power supply with front-toback (FB) airflow Declared Sound Power (LWAd) 6.0 bels, 0°C to 45°C 6.6 bels, 50°C X460-G2-24t-GE4 48.9 dB(A), 0°C to 35°C 5.9 bels, 0°C to 35°C X460-G2-24t-10GE4 59.5 dB(A), 45°C 7.
ExtremeSwitching X460-G2 Series Switches Technical Specifications Technical Specifications Table 155: Fan and Acoustic Noise (continued) Switch Model Bystander Sound Pressure Declared Sound Power (LWAd) X460-G2-48p-GE4 52.2 dB(A), 0°C to 45°C 6.9 bels, 0°C to 45°C X460-G2-48p-10GE4 64.3 dB(A), 50°C 7.6 bels, 50°C X460-G2-24p-24hp-10GE4 X460-G2-16mp-32p-10GE4 Dual 715 W or 1100 W AC power supply with frontto-back (FB) airflow X460-G2-48p-GE4 50.9 dB(A), 0°C to 31°C X460-G2-48p-10GE4 64.
Technical Specifications Power Options Power Options Table 157: X460-G2 Power Supply Options Switch Model Power Supply X460-G2-24t-GE4 X460-G2-24t-10GE4 X460-G2-24t-24ht-10GE4 X460-G2-24x-10GE4 X460-G2-48t-GE4 X460-G2-48t-10GE4 X460-G2-48x-10GE4 300 W AC power supply: Part no. 10930A 300 W AC PS FB (front-to-back) Model EDPS-300AB CA Part no. 10943 300 W AC PS BF (back-to-front) Model EDPS-300AB A 100-240 V , 50/60 Hz, 1.
Power Options Technical Specifications Table 157: X460-G2 Power Supply Options (continued) Switch Model Power Supply X460-G2-16mp-32p-10GE4 715 W AC power supply: Part no. 10951 715 W AC PS FB (front-to-back) Model PSSF711101A Part no. 10952 715 W AC PS BF (back-to-front) Model PSSF711102A 100-127 V 200-240 V 50/60 Hz, 7.7A/3.7 A max per PS X460-G2-24p-GE4 X460-G2-24p-10GE4 1100 W AC power supply: Part no. 10941 1100 W AC PS FB (front to back), Model PSSF112101A Part no.
Technical Specifications Power Options Table 158: X460-G2 Power Consumption (continued) Switch Model Minimum Heat Dissipation Minimum Power Consumption Maximum Heat Dissipation Maximum Power Consumption X460-G2-48x-10GE4 202 BTU/hr 59 W 485 BTU/hr 143 W X460-G2-48p-GE4 (@ 1440 W PoE) 284 BTU/hr 83 W 1116 BTU/hr 1767 W X460-G2-48p-10GE4 (@ 1440 W PoE) 287 BTU/hr 84 W 1116 BTU/hr 1767 W X460-G2-24p-24hp-10GE4 (@ 1440 W PoE) 287 BTU/hr 84 W 1116 BTU/hr 1767 W X460-G2-16mp-32p-10GE4 (
Standards and Environmental Data Technical Specifications Table 159: X460-G2 PoE Power Budget (continued) PSU Configuration X460-G2-24p-GE4 X460G2-24p-10GE4 X460-G2-48p-GE4 X460G2-48p-10GE4 X460X460G2-24p-24hp-10GE G2-16mp-32p-10GE 4 4 1 PSU of 350 W NA & 1 PSU of 1100 W NA 1048 W 34 ports @ 30 W 48 ports @ 15.4 W 998 W 33 ports @ 30 W 48 ports @ 15.4 W 1 PSU of 715 W 720 W & 24 ports @ 30 W 1 PSU of 1100 W 24 ports @ 15.4 W 1350 W 45 ports @ 30 W 48 ports @ 15.
Technical Specifications Standards and Environmental Data Table 162: EMI/EMC Standards (continued) International EMC certifications CISPR 32: 2015, Class A (International Emissions) EN 55024:1998+A1:2001+A2:2003 Class A (International Immunity) IEC/EN 61000-4-2:2008 Electrostatic Discharge, 8kV Contact, 15 kV Air, Criteria A IEC/EN 61000-4-3:2008 Radiated Immunity 10V/m, Criteria IEC/EN 61000-4-4:2004 Transient Burst, 1 kV, Criteria A IEC/EN 61000-4-5:2005 Surge, 2 kV L-L, 2 kV L-G, Level 3, Criteria A I
ExtremeSwitching X465 Series Switches Technical Specifications Technical Specifications Table 165: Environmental Data (continued) Packaged shock (half sine): 180 m/s2 (18 G), 6 ms, 600 shocks Packaged sine vibration: 5 to 62 Hz at velocity 5 mm/s, 62 to 500 Hz at 0.2 G Packaged random vibration: 5 to 20 Hz at 1.0 ASD w/–3 dB/oct.
ExtremeSwitching X465 Series Switches Technical Specifications Technical Specifications Table 167: X465 Unpackaged Weight (With Blanks; No PSU or Fan Module) (continued) X465-48W switch 18.70 lb (8.48 kg) X465i-48W switch 18.33 lb (8.32 kg) Table 168: X465 Packaged Dimensions X465-24MU switch X465-24MU-24W switch X465-24S switch X465-24W switch X465-24XE switch X465-48P switch X465-48T switch X465-48W switch X465i-48W switch Height: 6.22 inches (15.8 cm) Width: 21.58 inches (54.8 cm) Length: 23.
ExtremeSwitching X465 Series Switches Technical Specifications Technical Specifications Table 170: VIM5 Module Unpacked Weights and Dimensions (continued) VIM5/Module Weight Dimensions VIM5-4Y 0.47 lb (0.21 kg) Height: 1.57 inches (3.99 cm) Width: 1.92 inches (4.88 cm) Length: 6.16 inches (15.64 cm) VIM5-4YE 0.47 lb (0.21 kg) Height: 1.57 inches (3.99 cm) Width: 1.92 inches (4.88 cm) Length: 6.16 inches (15.
ExtremeSwitching X465 Series Switches Technical Specifications Technical Specifications Table 172: Fan and Acoustic Noise Switch Model Ambient Temp VIM PoE Main Fan PSU1 + Speed (% PSU2 of max) Bystander Declared Sound Sound Pressure Power (LWAd) X465-24MU switch 25C VIM5-4XE 720W 20% 1100W (½ 45.4 of max PoE power 56 X465-24MU-24W switch 25C VIM5-4XE 1800W 20% 2000W 54.1 (½ of max PoE power 65.4 25C VIM5-4XE 720W 20% 1100W (½ 45.8 of max PoE power 56.
Power Options Technical Specifications Table 173: X465 Fan Speed and Power Consumption Fan Speed Fan Module RPM (typical) Power Inlet Fan Outlet Fan Typical Full 16,000 (typ) 13,500 (typ) 15.8W per module* Low 3,200 (typ) 2,800 (typ) * Some units are equipped with (1) fan module, while others are equipped with 2. Total fan power is equal to the number of installed fan modules multiplied by the fan power for each module.
Technical Specifications Power Options The following are the minimum software versions that are required for use with XN-ACPWR-xxx-FB PSUs and the switch: • • EXOS version 31.3.1, EXOS version 30.7.2 for X465 only VOSS version 8.3 Previous software versions are not supported with XN-ACPWR-xxx-FB PSUs. You must upgrade to the listed minimum software version or later to use any of the XN-ACPWR-xxx-FB PSUs with the switch.
Power Options Technical Specifications Table 177: X465 PoE Power Budget X465-24W X465-48P X465-48W X465i-48W X465-24MU X465-24MU-24W System pwr: 229W System pwr: 255W System pwr: 285W System pwr: 275W System pwr: 332W PSU1 PSU2 PoE max PSU1 PSU2 PoE max PSU1 PSU2 PoE max PSU1 PSU2 PoE max 2000 W high line 2000 2160 2000 W W W high high line line 2000 1440 2000 W W W high high line line 2000 3515 W W* high line 2000 W high line 2000 1440 2000 W W W high high line line 2000 3468 W W* high lin
Technical Specifications Power Options Table 177: X465 PoE Power Budget (continued) X465-24W X465-48P X465-48W X465i-48W 2000 0W W low line 871W 2000 0W W low line 845 W 1100 W 1100 W 1773 W 1100 W 1100 W 1440 1100 W W 1100 W 715W 1422 W 1100 W 715W 1396 W 1100 W 350 W 1090 1100 W W 350 W 1064 1100 W W 350 W 1034 1100 W W 350 W 1044 1100 W W 350 W 987 W 1100 W 0W 871W 1100 W 0W 845 W 0W 815W 1100 W 0W 825 W 0W 768 W 2000 0W W low line 1100 W 1100 W 1100 W X465-24M
Standards and Environmental Data Technical Specifications Standards and Environmental Data Table 179: Safety Standards North American Safety of ITE UL 60950-1 2nd Ed., A2:2014 (US) CSA 22.2 No. 60950-1-07 2nd Ed. 2014-10(Canada) Complies with FCC 21CFR 1040.
ExtremeSwitching X590 Series Switches Technical Specifications Technical Specifications Table 181: Telecom Standards (continued) MEF9 and MEF14 certified for EPL, EVPL, and ELAN Table 182: IEEE 802.3 Media Access Standards IEEE 802.3ab 1000BASE-T IEEE 802.3z 1000BASE-X IEEE 802.3ae 10GBASE-X IEEE 802.3ba 40GBASE-X IEEE 802.3bz 2.5GBASE-T and 5GBASE-T (for X460G2-16mp-32p-10GE4) IEEE 802.3at PoE Plus IEEE 802.3az (EEE) Table 183: Environmental Data Environmental standards EN/ETSI 300 019-2-1 v2.1.
Fan and Acoustic Noise • Technical Specifications X590-24x-1q-2c Table 184: X590 Unpackaged Dimensions X590-24t-1q-2c X590-24x-1q-2c Height: 1.71 in (4.35 cm) Width: 19.19 in (48.7 cm) Length: 17.38 in (44.1 cm) Table 185: X590 Unpackaged Weight X590-24t-1q-2c 14.99 lb (6.8 kg) X590-24x-1q-2c 14.55 lb (6.6 kg) Table 186: X590 Packaged Dimensions X590-24t-1q-2c X590-24x-1q-2c Height: 6.07 in (15.4 cm) Width: 21.35 in (54.2 cm) Length: 23.17 in (58.
Technical Specifications Power Options Power Options Table 189: X590 Power Options X590-24t-1q-2c (part # 16791) X590-24x-1q-2c (part # 16790) 770 W AC power supply: Part # 10960 770 W AC PS FB (front-back) Part # 10961 770 W AC PS FB (back-front) AC Input: 100-240 VAC, 50/60 Hz PSU Input Socket: IEC 320 C14 Power cord input plug: IEC 320 C13 1100 W DC power supply: Part # 10962 1100 W DC PS FB (front-back) Part # 10963 1100 W DC PS FB (back-front) DC Input: -48 VDC Table 190: Power Specifications Switc
Standards and Environmental Data Technical Specifications Standards and Environmental Data Table 192: Safety Standards North American Safety of UL 60950-1 2nd Ed., A2:2014, Listed Device (US) ITE CSA 22.2 #60950-1-07 2nd Ed., 2014-10 Canada) Complies with FCC 21CFR 1040.10 (US Laser Safety) CDRH Letter of Approval (US FDA Approval) European Safety of ITE EN 60950-1:2006+A11:2009+A1:2010+A12:2011+A2:2013 2nd Ed.
ExtremeSwitching X620 Series Switches Technical Specifications Technical Specifications Table 195: IEEE 802.3 Media Access Standards (continued) IEEE 802.3 10GBASE-T (up to 100 m using Cat 6a cabling or better) 25Gb and 50Gb Ethernet implemented per 25G/50G Ethernet Consortium specification and IEEE 802.3 standard Table 196: Environmental Data Environmental standards EN/ETSI 300 019-2-1 v2.1.2 - Class 1.2 Storage EN/ETSI 300 019-2-2 v2.1.2 - Class 2.3 Transportation EN/ETSI 300 019-2-3 v2.1.2 - Class 3.
Weight Technical Specifications Weight Table 198: Weight X620-8t-2x 6.37 lb (2.92 kg) X620-10x 6.04 lb (2.77 kg) X620-16t 12.04 lb (5.52 kg) X620-16x 11.11 lb (5.10 kg) Packaged Dimensions Table 199: Packaged Dimensions X620-8t-2x X620-10x Height: 6.23 inches (15.8 cm) Width: 15.17 inches (38.5 cm) Depth: 22.46 inches (57.0 cm) X620-16t X620-16x Height: 6.66 inches (16.9 cm) Width: 21.63 inches (54.9 cm) Depth: 22.93 inches (58.2 cm) Packaged Weight Table 200: Packaged Weight X620-8t-2x 9.
Technical Specifications Acoustic Sound Acoustic Sound Table 202: Acoustic Sound Bystander Sound Pressure Declared Sound Power X620-8t-2x (side-side airflow) 35.6 db(A) up to 25°C 38.8 db(A) up to 30°C 65.4 db(A) at 50°C (max) 4.8 bels up to 25°C 5.2 bels up to 30°C 7.9 bels at 50°C (max) X620-10x (side-side airflow) 28.2 db(A) up to 35°C 66.3 db(A) at 50°C (max) 3.8 bels up to 35°C 7.9 bels at 50°C (max) X620-16t (front-back airflow) 47.2 db(A) up to 35°C 65.6 db(A) at 50°C (max) 6.
Power Supplies Technical Specifications Power Supplies Table 204: Power Supplies Power Supplies X620-8t-2x X620-10x X620-16t X620-16x Integrated 100 W AC PSU RPS connector for external redundant PSU Side-to-side airflow Modular 300 W power supply (up to two PSU) AC and DC power options Mix AC and DC configuration Front-to-back or back-to-front airflow options CPU, Memory Table 205: CPU, Memory CPU/Memory 1 GHz CPU 1 GB DDR3 ECC memory 4 GB eMMC Flash memory Environmental Data Table 206: Environmental D
Technical Specifications Scaling and Performance Scaling and Performance For scaling and performance specifications, refer to the product data sheet. Safety Standards Table 207: Safety Standards North American ITE UL 60950-1 2nd Ed., Listed Device (US) CSA 22.2 #60950-1-03 2nd Ed.(Canada) Complies with FCC 21CFR 1040.10 (US Laser Safety) CDRH Letter of Approval (US FDA Approval) European ITE EN 60950-1:2007 2nd Ed.
Telecom Standards Technical Specifications Telecom Standards Table 209: Telecom Standards CE 2.0 compliant IEEE 802.3 Media Access Standards Table 210: IEEE 802.3 Media Access Standards IEEE 802.3ab 1000BASE-T IEEE 802.3z 1000BASE-X IEEE 802.3ae 10GBASE-X IEEE 802.3at PoE-Plus IEEE 802.3az (EEE) IEEE 802.
Summit X670-G2 Series Switches Technical Specifications Technical Specifications Table 215: Fan and Acoustic Noise Switch Model Bystander Sound Pressure Declared Sound Power (LWAd) X670-G2-48x-4q Dual 550 W AC power supply with front-to-back (FB) airflow 60.2 dB(A), 0°C to 45°C 7.3 bels, 0°C to 45°C X670-G2-48x-4q Dual 550 W DC power supply with front-to-back (FB) airflow 61.3 dB(A), 0°C to 45°C X670-G2-48x-4q Dual 550 W AC power supply with back-to-front (BF) airflow 58.3 dB(A), 0°C to 35°C 7.
Power Options Technical Specifications Power Options Table 216: Summit X670-G2 Power Options X670-G2-48x-4q (part # 17310) 550 W AC power supply: Part # 10925 550 W AC PS FB (front-to-back), Model # DS550HE-3 Part # 10927 550 W AC PS BF (back-to-front), Model # DS550HE-3-02 100-240 V, 50/60 Hz, 2.25 A max per PS 550 W DC power supply: Part # 10926 550 W DC PS FB (front-to-back), Model # DS550DC-3 Part # 10928 550 W DC PS BF (back-to-front), Model # DS550DC-3-003 -48 VDC, 5.
Technical Specifications Standards and Environmental Data Standards and Environmental Data Table 219: Safety Standards North American Safety of ITE UL 60950-1 1st Ed., Listed Device (US) CSA 22.2 #60950-1-07 2nd Ed.(Canada) Complies with FCC 21CFR 1040.10 (US Laser Safety) CDRH Letter of Approval (US FDA Approval) European Safety of ITE EN 60950-1:2006 2nd Ed.
ExtremeSwitching X690 Series Switches Technical Specifications Technical Specifications Table 222: IEEE 802.3 Media Access Standards (continued) IEEE 802.3ab 1000BASE-T IEEE 802.3z 1000BASE-X IEEE 802.3ae 10GBASE-X IEEE 802.3ba 40GBASE-X Table 223: Environmental Data Environmental standards EN/ETSI 300 019-2-1 v2.1.2 (2000 - 2009) - Class 1.2 Storage EN/ETSI 300 019-2-2 v2.1.2 (1999 - 09) - Class 2.3 Transportation EN/ETSI 300 019-2-3 v2.1.2 (2003 - 04) - Class 3.
Technical Specifications • Fan and Acoustic Noise X690-48x-2q-4c Table 224: X690 Unpackaged Dimensions X690-48t-2q-4c X690-48x-2q-4c Height: 1.71 inches (4.35 cm) Width: 19.19 inches (48.7 cm) Length: 17.38 inches (44.1 cm) Table 225: X690 Unpackaged Weight X690-48t-2q-4c 15.65 lb (7.1 kg) X690-48x-2q-4c 14.88 lb (6.8 kg) Table 226: X690 Packaged Dimensions X690-48t-2q-4c X690-48x-2q-4c Height: 6.07 inches (15.4 cm) Width: 21.35 inches (54.2 cm) Length: 23.17 inches (58.
Power Options Technical Specifications Power Options Table 229: X690 Power Options X690-48t-2q-4c (part # 17360) X690-48x-2q-4c (part # 17350) 770 W AC power supply: Part # 10960 770 W AC PS FB (front-back) Part # 10961 770 W AC PS FB (back-front) AC Input: 100-240 VAC, 50/60 Hz PSU Input Socket: IEC 320 C14 Power cord input plug: IEC 320 C13 1100 W DC power supply: Part # 10962 1100 W DC PS FB (front-back) Part # 10963 1100 W DC PS FB (back-front) DC Input: -48 VDC Table 230: Power Specifications Switc
Technical Specifications Standards and Environmental Data Standards and Environmental Data Table 232: Safety Standards North American Safety of ITE UL 60950-1 1st Ed., Listed Device (US) CSA 22.2 #60950-1-07 2nd Ed.(Canada) Complies with FCC 21CFR 1040.10 (US Laser Safety) CDRH Letter of Approval (US FDA Approval) European Safety of ITE EN 60950-1:2006 2nd Ed.
ExtremeSwitching X695 Series Switch Technical Specifications Technical Specifications Table 234: Telecom Standards (continued) MEF9 and MEF14 certified for EPL, EVPL, and ELAN Table 235: IEEE 802.3 Media Access Standards IEEE 802.3ab 1000BASE-T IEEE 802.3z 1000BASE-X IEEE 802.3ae 10GBASE-X IEEE 802.3ba 40GBASE-X Table 236: Environmental Data Environmental standards EN/ETSI 300 019-2-1 v2.1.2 (2000 - 2009) - Class 1.2 Storage EN/ETSI 300 019-2-2 v2.1.2 (1999 - 09) - Class 2.
ExtremeSwitching X695 Series Switch Technical Specifications Technical Specifications Table 237: X695 Unpackaged Dimensions (continued) Four-post rack mount kit (included with switch) Height: 2.1 cm (0.83 in) Width: 4.4 cm (17.3 in) Length: 63.0 cm - 90.0 cm (24.80 in 35.43 in) Two-post rack mount kit (ordered separately) Height: 4.2 cm (1.65 in) Width: 2.4 cm (0.93 in) Length: 12.5 cm (4.92 in) Table 238: X695 Unpackaged Weight X695-48Y-8C switch with no PSUs 7.39 kg (16.
Technical Specifications Fan and Acoustic Noise Fan and Acoustic Noise Table 241: Fan and Acoustic Noise Switch Model Bystander Sound Pressure (at 25°C) Declared Sound Power (at 25°C) X695-48Y-8C-F (FB airflow) 52.2 db(A) 6.8 bels X695-48Y-8C-R (BF airflow) 50.5 db(A) 6.7 bels Fan Tray and Speed Variation Fan speeds are adjusted based on calculations of the temperatures on all sensors.
Technical Specifications Power Options Power Options Supported power supply configurations include two AC power supplies, two DC power supplies, or one AC and one DC power supply. Table 243: X695 Power Options X695-48Y-8C 750 W AC power supply: Part # XN-ACPWR-750W-F (front-to-back) Part # XN-ACPWR-750W-R (back-to-front) AC Input: 100-120/200-240 VAC, 50/60 Hz 3.5/1.8 A max.
Standards Technical Specifications Standards Table 247: Safety Standards North American Safety of ITE UL 62368-1 2nd Ed., 2014-12-01, Listed Device (US) UL 60950-1 2nd Ed., 2014-10-14, Listed Device (US) CAN/CSA 22.2 #62368-1-14 2nd Ed., Canada CAN/CSA 22.2 #60950-1-07 2nd Ed.
Technical Specifications Standards Table 248: EMI/EMC Standards (continued) International EMC certifications IEC 61000-6-2:2016 ED 3.0 IEC 61000-6-4:2018 ED 3.0 IEC 61000-4-2:2008 ED 2.0 IEC 61000-4-3:2006+AMD1:2007+AMD2:2010 ED 3.2 IEC 61000-4-4:2012 ED 3.0 IEC 61000-4-5:2014+AMD1:2017+ ED 3.1 IEC 61000-4-6:2013+ ED 4.0 IEC 61000-4-8:2009+ ED 2.0 IEC 61000-4-11:2004+AMD1:2017+ ED 2.1 CISPER 32:2015 ED 2.0 Class A CISPER 24:2010+AMD1:2015 Class A CISPER 11:2009 ED 5.
Technical Specifications Environmental Data Environmental Data Table 251: Environmental Data Environmental standards EN/ETSI 300 019-2-1 v2.1.2 (2000 - 2009) - Class 1.2 Storage EN/ETSI 300 019-2-2 v2.1.2 (1999 - 09) - Class 2.3 Transportation EN/ETSI 300 019-2-3 v2.1.2 (2003 - 04) - Class 3.1e Operational EN/ETSI 300 753 (1997-10) - Acoustic Noise ASTM D3580 Random Vibration Unpackaged 1.
Technical Specifications • Fan and Acoustic Noise X870-96x-8c Table 252: X870 Unpackaged Dimensions X870-32c X870-96x-8c Height: 1.75 inches (4.5 cm) Width: 17.00 inches (43.2 cm) Length: 19.00 inches (48.3 cm) Table 253: X870 Unpackaged Weight X870-32c X870-96x-8c 15.21 lb (6.9 kg) Table 254: X870 Packaged Dimensions X870-32c X870-96x-8c Height: 6.69 inches (17.0 cm) Width: 22.05 inches (56.0 cm) Length: 23.43 inches (59.5 cm) Table 255: X870 Packaged Weight X870-32c X870-96x-8c 20.33 lb (9.
Power Options Technical Specifications Power Options Table 257: X870 Power Options X870-32c (part # 17800) X870-96x-8c (part # 17810) 770 W AC power supply: Part # 10960 770 W AC PS FB (front-back) Part # 10961 770 W AC PS FB (back-front) AC Input: 100-240 VAC, 50/60 Hz PSU Input Socket: IEC 320 C14 Power cord input plug: IEC 320 C13 1100 W DC power supply: Part # 10962 1100 W DC PS FB (front-back) Part # 10963 1100 W DC PS FB (back-front) DC Input: -48 VDC Table 258: Power Specifications Switch Model X
Technical Specifications Standards and Environmental Data Standards and Environmental Data Table 259: Safety Standards North American Safety of ITE UL 60950-1 1st Ed., Listed Device (US) CSA 22.2 #60950-1-07 2nd Ed.(Canada) Complies with FCC 21CFR 1040.10 (US Laser Safety) CDRH Letter of Approval (US FDA Approval) European Safety of ITE EN 60950-1:2006 2nd Ed.
V300 Virtual Port Extender Specifications Technical Specifications Table 261: Telecom Standards (continued) MEF9 and MEF14 certified for EPL, EVPL, and ELAN Table 262: IEEE 802.3 Media Access Standards IEEE 802.3ab 1000BASE-T IEEE 802.3z 1000BASE-X IEEE 802.3ae 10GBASE-X IEEE 802.3ba 40GBASE-X Table 263: Environmental Data Environmental standards EN/ETSI 300 019-2-1 v2.1.2 (2000 - 2009) - Class 1.2 Storage EN/ETSI 300 019-2-2 v2.1.2 (1999 - 09) - Class 2.3 Transportation EN/ETSI 300 019-2-3 v2.1.
Technical Specifications • • V300 Virtual Port Extender Specifications V300HT-8P-2X V300HT-8T-2X Table 264: V300 Unpackaged Dimensions V300-8P-2X V300-8T-2X V300HT-8P-2X V300HT-8T-2X Height:1.73 in (4.4 cm) Width: 7.76 in (19.71 cm) Length: 212 in (538.48 cm) V300-8P-2T-W Height: 1.73 in (4.4 cm) Width: 8.26 in (21 cm) Length: 7.48 in (19 cm) Table 265: V300 Unpackaged Weight V300-8P-2X V300-8T-2X V300HT-8P-2X V300HT-8T-2X 3.31 lb (1.5 kg) V300-8P-2T-W 3.22 lb (1.
Power Specifications Technical Specifications Power Specifications Note When you use a redundant power supply (RPS), only redundant power – not additive power – is supported. Thus, the PoE ports load does not increase when an RPS is added. Table 268: V300 Power Options V300-8P-2X DC Input: 54VDC, 4.5A max V300-8T-2X DC Input: 12VDC, 1.5A max V300-8P-2T-W The PoE PSE Budget is dynamically determined by the 802.
Technical Specifications Standards and Environmental Data Standards and Environmental Data Table 270: Safety Standards North American Safety of ITE UL 60950-1 2nd Ed., A2:2014, Listed Device (US) CSA 22.2 #60950-1-07 2nd Ed., 2014-10 Canada) Complies with FCC 21CFR 1040.
V400 Virtual Port Extender Technical Specifications Table 272: V400 Unpackaged Dimensions (continued) V400-48t-10GE4 Height: 1.70 in (4.32 cm) Width: 9.97 in (25.3 cm) Length: 17.34 in (44.0 cm) V400-48p-10GE4 Height: 1.70 in (4.32 cm) Width: 15.25 in (38.7 cm) Length: 17.34 in (44.0 cm) Table 273: V400 Unpackaged Weight V400-24t-10GE2 6.62 lb (3.00 kg) V400-24p-10GE2 9.08 lb (4.12 kg) V400-48t-10GE4 7.14 lb (3.26 kg) V400-48p-10GE4 14.06 lb (6.
Technical Specifications Power Specifications Power Specifications Note When you use a redundant power supply (RPS), only redundant power – not additive power – is supported. Thus, the PoE ports load does not increase when an RPS is added. Table 276: V400 Power Options V400-24t-10GE2 AC Input: 100-240 VAC, 50/60 Hz, 0.6 A max V400-24p-10GE2 AC Input: 100-240 VAC, 50/60 Hz, 2.2 A max DC RPS input: 54 VDC, 18.52 A max • PoE ports load to 382 W for AC input only.
Fan and Acoustic Sound Technical Specifications Fan and Acoustic Sound Table 278: Fan and Acoustic Sound Bystander Sound Pressure 22 in dB(A) Declared Sound Power (LWAd) 22 in bels V400-24t-10GE2 41.6 (Duty 30%) / 59.4 (max.) 4.4 (Duty 30%) / 6.2 (max.) V400-24p-10GE2 47.5 (Duty 30%) / 64.0 (max.) 5.0 (Duty 30%) / 6.7 (max.) V400-48t-10GE4 43.4 (Duty 30%) / 61.1 (max.) 4.6 (Duty 30%) / 6.4 (max.) V400-48p-10GE4 48.5 (Duty 30%) / 65.5 (max.) 5.1 (Duty 30%) / 6.8 (max.
Technical Specifications LRM/MACsec Adapter Technical Specifications LRM/MACsec Adapter Technical Specifications The LRM/MACsec Adapter (part no. 10965) can be attached to switch ports that are not LRM or MACsec capable, using a cable that is specifically designed for this purpose. Table 281: LRM/MACsec Adapter Packaged Dimensions Height 3.00 cm (1.18 in) Width 7.60 cm (2.99 in) Length 12.35 cm (4.86 in) Weight 300 g (0.
Five-Slot Bracket Technical Specifications Five-Slot Bracket Table 285: Five-Slot Bracket for LRM/MACsec Adapter: Specifications Part no. 10966 Height 4.32 cm (1.70 in) Width 48.26 cm (19.00 in) Length 5.00 cm (1.97 in) Weight 487 g (1.07 lb) Half-Duplex to Full-Duplex Converter Technical Specifications The Half-Duplex to Full-Duplex Converter can be attached to switch ports to enable communication over half-duplex connections with older Ethernet devices.
Half-Duplex to Full-Duplex Converter Environmental Data and Standards Technical Specifications Half-Duplex to Full-Duplex Converter Environmental Data and Standards Table 289: Environmental Data Environmental conditions Operating temperature: -40°C to 70°C (-40°F to 158°F) Storage temperature: 0°C to 40°C (32°F to 104°F) Humidity: 10% to 95% relative humidity, non-condensing Altitude: 0 to 2,000 meters (6,562 feet) Packaged shock (half sine): 180 m/s2 (18 G), 6 ms, 600 shocks Packaged vibration: 5 to 62
Summit 300 W Power Supplies Technical Specifications Technical Specifications Summit 300 W Power Supplies Technical Specifications The following Summit 300 W power supplies are available for use: • • • • Summit 300 W AC power supply Front-to-Back airflow Model 10930A Summit 300 W AC power supply Back-to-Front airflow Model 10943 Summit 300 W DC power supply Front-to-Back airflow Model 10933 Summit 300 W DC power supply Back-to-Front airflow Model 10944 These power supplies are for use with the X460-G2
Summit 300 W DC Power Supply (Model 10933 and 10944) Technical Specifications Table 292: Power Specifications (continued) Power supply cord gauge 18 AWG (0.75 mm2) up to 6 feet or 2 meters or 16 AWG (1.
Summit 350 W Power Supplies Technical Specifications Technical Specifications Table 296: Environmental Specifications (continued) Operating humidity Operational shock 20% to 90% relative humidity, non-condensing 30 m/s2 (3 G) Summit 350 W Power Supplies Technical Specifications The following Summit 350 W power supplies are available for use in X460-G2 series PoE switches: • • Summit 350 W AC power supply: front-to-back airflow (part nos.
Technical Specifications Summit 550 W Power Supplies Technical Specifications Summit 550 W Power Supplies Technical Specifications The following power supplies are available for use in X670-G2 series switches: • • • • 550 W AC PSU-FB (Model 10925)—AC power supply with front-to-back ventilation airflow 550 W AC PSU-BF (Model 10927)—AC power supply with back-to-front ventilation airflow 550 W DC PSU-FB (Model 10926)—DC power supply with front-to-back ventilation airflow 550 W DC PSU-BF (Model 10928)—DC po
Summit 715 W Power Supplies Technical Specifications Technical Specifications Table 302: DC Power Specifications (Models 10926 and 10928) (continued) DC Output 12 V DC Output Power (W) 550 W , 45 A/3.3 V , 3.
Technical Specifications 750 W Power Supplies Technical Specifications Table 305: Power Specifications (continued) Power cord wall plug Refer to Power Cord Requirements for AC-Powered Switches and AC Power Supplies on page 476 Efficiency Minimum efficiency: 88% at maximum power output Table 306: Environmental Specifications Operating temperature -10°C to 50°C (normal operation) Storage temperature -40°C to 70°C Operating humidity 93% relative humidity, non-condensing at 30C 30 m/s2 (3 G) Operati
750 W Power Supplies Technical Specifications Technical Specifications Table 308: Power Specifications (continued) Power supply cord gauge 18 AWG (0.75 mm2) up to 6 feet or 2 meters or 16 AWG (1.
Technical Specifications 750 W Power Supplies Technical Specifications Table 310: 750 W Power Supplies: Unpackaged Dimensions 750 W power supply – AC front-to-back or back-to-front airflow Height: 4.00 cm (1.57 in) Width: 8.00 cm (3.15 in) Depth: 20.60 cm (8.11 in) 750 W power supply – DC front-to-back or back-to-front airflow Height: 4.00 cm (1.57 in) Width: 8.00 cm (3.15 in) Depth: 20.60 cm (8.
Summit 770 W Power Supplies Technical Specifications Technical Specifications Table 314: Power Specifications (AC Power Supplies) (continued) Power cord input plug IEC 320 C13 Power cord wall plug Refer to Power Cord Requirements for AC-Powered Switches and AC Power Supplies on page 476. 18 AWG (0.75 mm2) up to 6 feet or 2 meters or 16 AWG (1.
Technical Specifications • Summit 1100 W Power Supplies Technical Specifications Summit 770 W AC power supply: back-to-front airflow (part no. 10961) Table 317: Physical Specifications Dimensions Height: 1.57 inches (4.0 cm) Width: 3.25 inches (8.3 cm) Length: 10.22 inches (26.0 cm) Weight 2.55 lb (1.12 kg) Table 318: Power Specifications Voltage input range 100-127/200-240 Nominal input ratings 12.
DC Power Supplies Technical Specifications DC Power Supplies The following Summit 1100 W DC power supplies are available for use in ExtremeSwitching X690 and X870 series switches. • • Summit 1100 W DC power supply: front-to-back airflow (part no. 10962) Summit 1100 W DC power supply: back-to-front airflow (part no. 10963) See Summit 1100 W DC Power Supplies (10962, 10963) on page 465 for details.
Technical Specifications Summit 1100 W DC Power Supplies (10962, 10963) Summit 1100 W DC Power Supplies (10962, 10963) Table 323: Physical Specifications Dimensions Height: 1.57 inches (4.0 cm) Width: 3.25 inches (8.3 cm) Length: 10.22 inches (26.0 cm) Weight 2.55 lb (1.12 kg) Table 324: Power Specifications Nominal input -48 to -60 VDC, 24 A DC Voltage input range -35 to -75 V Inrush Current 21 A peak Maximum wire size 14 AWG (1.5 mm2 copper stranded). DC Output 12 V, 45 A/3.
EPS-C2 Redundant Power Supply Technical Specifications Technical Specifications Table 327: Power Specifications (continued) Maximum inrush current 45A at Max 264 VAC at 25C with cold start Output 54 V, 13.
RPS-150XT Redundant Power Supply Technical Specifications Technical Specifications Table 331: Power Specifications (continued) Output voltage 19 VDC Maximum output power 90 W Table 332: Environmental Specifications Operating temperature 0°C to 40°C (32°F to 104°F) Storage temperature -20°C to 85°C (-4°F to 185°F) Operating relative humidity 10% to 90% Storage relative humidity 5% to 95% RPS-150XT Redundant Power Supply Technical Specifications The following tables list the specifications for t
RPS-150XT Connector Technical Specifications RPS-150XT Connector See Figure 317 and Table 336 on page 468 for pin locations and function. Note The following information is for troubleshooting purposes only. For proper operation, use only the RPS cable supplied with the RPS-150XT. This cable is specially designed for this application and meets all necessary regulatory and safety standards. Caution The use of non-approved cables will void your warranty.
RPS-500p Redundant Power Supply Technical Specifications Technical Specifications RPS-500p Redundant Power Supply Technical Specifications External Power Supplies for PoE Switches The following tables list the specifications for the 500 W DC RPS-500p (model 10923). Table 337: Physical Specifications Dimensions 4.45 H x 44.5 W x 16.5 D (cm) 1.75 H x 17.5 W x 6.5 D (in) Weigh (unit only) 3.47 kg (7.63 lb) Weigh (unit and packaging) 4.95 kg (10.
STK-RPS-150PS and RPS Shelves Technical Specifications Technical Specifications Figure 318: RPS-500p Connector Pin Locations Table 340: RPS-500p Connector Pins Pin Function Pin Function 1 - 55 V return 8 Ground 2 - 55 VDC 9 No connection 3 12 VDC output 10 RPS present 4 12 VDC output 11 Status 1 Status 5 12 VDC output 12 Status 2 6 12 VDC output 13 Power good 7 Ground 14 Ground STK-RPS-150PS and RPS Shelves Technical Specifications The Extreme Networks STK-RPS-150PS is a 15
Technical Specifications STK-RPS-150PS Specifications STK-RPS-150PS Specifications Table 341: Physical Specifications Dimensions 7.7 H x 2.04 W x 10.1 D (in.) 19.6 H x 5.2 W x 25.7 D (cm) Unpackaged Weight 3.85 lb (1.75 kg) Table 342: Power Specifications AC input frequency range 50 to 60 Hz AC input voltage range 100-240 VAC Output Voltage 12VDC Output Current 1.0 A min., 8.5 A or 13.0 A max.
STK-RPS-150PS Connector Pin Locations Technical Specifications STK-RPS-150PS Connector Pin Locations Figure 319: STK-RPS-150PS Connector Pin Locations Table 346: STK-RPS-150PS Connector Pin Functions Pin Function Pin Function 1 - 50 V return 8 Ground 2 - 50 VDC 9 No connection 3 12 VDC output 10 RPS present 4 12 VDC output 11 Status 1 5 12 VDC output 12 Status 2 6 12 VDC output 13 Power good 7 Ground 14 Ground STK-RPS-1005PS Redundant Power Supply Technical Specifications
Technical Specifications STK-RPS-1005PS Connector Table 348: Power Specifications (continued) DC output -55 VDC, 15 A maximum +12.0 VDC, 0.
VX-RPS-1000 Redundant Power Supply Technical Specifications Technical Specifications 2 = Pin 9 4 = Pin 18 Table 350: STK-RPS-1005PS Connector Pin Functions Pin Function Pin Function 1 12 V power 10 Power good of RPS 2 12 V power 11 Power supply present 3 12 V power 12 12 V current sharing 4 Ground 13 Ground 5 Ground 14 Spare pin 6 Spare pin 15 -55 V current sharing 7 -55 V power 16 -55 V power 8 -55 V power 17 -55 V power return 9 -55 V power return 18 -55 V power
Technical Specifications 3-Slot Modular Shelves: Technical Specifications Table 353: VX-RPS-1000 Power Specifications (continued) DC output +54.0 VDC, 18.
Model VX-RPS-CH3 Technical Specifications Model VX-RPS-CH3 The following table lists the specifications for the 3-slot modular shelf (model VX-RPS-CH3). The shelf is designed for use with the following equipment: • VX-RPS-1000 Redundant Power Supply on page 130 (model 18202) Table 357: Physical Specifications Length 44.0 cm (17.34 in.) Depth 38.7 cm (15.25 in.) Height 4.4 cm (1.73 in.) Weight 2.89 kg (6.
Technical Specifications Console Connector Pinouts Figure 321 shows the pinouts for a 9-pin to 25-pin (RS-232) null-modem cable. Figure 321: Null-Modem Cable Pinouts Figure 322 shows the pinouts for a 9-pin to 9-pin (PC-AT) null-modem serial cable. Figure 322: PC-AT Serial Null-modem Cable Pinouts Table 359 shows the pinouts for the RJ45 console port on the ExtremeSwitching switches.
Console Connector Pinouts Technical Specifications Table 359: RJ45 Console Port on Switch (continued) Function Pin Number Direction GND (ground) 5 — RXD (receive data) 6 In DSR (data set ready) 7 In RTS (request to send) 8 Out Table 360 shows the pinouts for an RJ45-to-DB-9 adapter.
Safety and Regulatory Information Considerations Before Installing on page 479 General Safety Precautions on page 480 Maintenance Safety on page 481 Fiber Optic Ports and Optical Safety on page 481 Cable Routing for LAN Systems on page 482 Installing Power Supply Units and Connecting Power on page 483 Selecting Power Supply Cords on page 484 Battery Notice on page 485 Battery Warning - Taiwan on page 485 EMC Warnings on page 485 Japan (VCCI Class A) on page 486 Korea EMC Statement on page 486 Warning Read t
General Safety Precautions Safety and Regulatory Information ◦ Well ventilated and away from sources of heat including direct sunlight. ◦ Away from sources of vibration or physical shock. ◦ Isolated from strong electromagnetic fields produced by electrical devices. • For equipment designed to be installed in environments that are not environmentally controlled, such as outdoor enclosures, see the product data sheet or for environmental conditions, temperature, and humidity.
Maintenance Safety Safety and Regulatory Information Maintenance Safety When you perform maintenance procedures on Extreme Networks equipment, follow these recommendations: • Use only authorized accessories or components approved for use with this system. Failure to follow these instructions may damage the equipment or violate required safety and regulations. • This system contains no customer serviceable components. Do not attempt to repair a chassis, power supply, module, or other component.
GBIC, SFP (Mini-GBIC), QSFP+, XENPAK, and XFP Regulatory Compliance Safety and Regulatory Information GBIC, SFP (Mini-GBIC), QSFP+, XENPAK, and XFP Regulatory Compliance Extreme Networks pluggable optical modules and direct-attach cables meet the following regulatory requirements: • • • • • • Class 1 or Class 1M Laser Product EN60825-1:2007 2nd Ed.
Safety and Regulatory Information Installing Power Supply Units and Connecting Power Installing Power Supply Units and Connecting Power For the ratings and power input requirements of each power supply unit, see #unique_419 or the data sheet for the power supply at www.extremenetworks.com. Warning Be sure to satisfy the requirements listed in this section when you install Extreme Networks power supplies or connect power.
Selecting Power Supply Cords Safety and Regulatory Information When you install DC power supplies or connect DC power: • Making the connection to your facility DC source voltage must be performed by a qualified, licensed electrician. • Extreme Networks DC power supplies do not have switches for turning the unit on and off. Make sure that the DC circuit is de-energized before connecting or disconnecting the DC power cord at the DC input power socket.
Safety and Regulatory Information Battery Notice Battery Notice Warning: This product contains a battery used to maintain product information. If the battery should need replacement it must be replaced by Service Personnel. Please contact Technical Support for assistance. Risk of explosion if battery is replaced by an incorrect type. Dispose of expended battery in accordance with local disposal regulations. Attention: Ce produit renferme une pile servant à conserver les renseignements sur le produit.
Safety and Regulatory Information China CCC Warning China CCC Warning Japan (VCCI Class A) Warning This is a Class A product based on the standard of the VCCI Council. If this equipment is used in a domestic environment, radio interference may occur, in which case the user may be required to take corrective actions.
Index Numerics 10933 DC power supply connecting ground wire 231 connecting to source voltage 232 10934A DC power supply, see 10944 DC power supply 10944 DC power supply connecting ground wire 231 connecting to source voltage 232 1100 W AC power supply features 137 installing 258 replacing 340 specifications 464 1100 W DC power supply connecting ground wire 248 connecting to source voltage 249 features 137 installation 246 installing 247, 365–367 preparing cables 246 removing 364 replacing 363, 365–367 speci
Index AC power (continued) requirements for cords 476 AC power supply installing 252 access 166 acoustic noise V400 Virtual Port Extender 449 X435 switch 381 X440-G2 switch 388 X450-G2 switch 394 X460-G2 switch 401 X465 switch 411 X590 switch 418 X620 switch 422 X670-G2 switch 427 X690 switch 431 X695 switch 435 X870 switch 441 acquired node definition 192 active node 191 active topology 191 airflow 369 alert, power supply 132, 134 alternate stacking ports 186, 188 X440-G2 series switches 196 X450-G2 serie
Index console port (continued) settings 260 X435 series 22, 23 X440-G2 series 30–32 X450-G2 series 47 X460-G2 series 58, 59 X465 series 74–77 X590 series 83 X620 series 89 X670-G2 series 96 X690 series 100, 101 X695 107, 109 X870 series 112, 114 control path 191 conventions notice icons 15 text 15 cooling 369 cords requirements 476 selecting 484 D daisy chain topology 185 data port 192 DB-9 console connector pinouts 476 DB-9 pinouts 476 DC power connecting to switch 232, 240, 242, 244, 249, 259 external p
Index feedback 16 fiber optic cable bend radius 172 connecting 260 handling 172 installing 172 first switch login 261 frequency, see radio frequency interference (RFI) front-to-back cooling 369 G ground wire connecting 231, 238, 243, 248 grounding 1100 W DC power supply 248 300 W DC power supply 231 550 W DC power supply 238 750 W DC power supply 243 racks 169 requirements 179 wiring closet 166 H Half-Duplex to Full-Duplex Converter connecting to power 322 installing 321, 322 mounting in a rack 321 mount
Index LRM/MACsec Adapter (continued) installing 317–320 LEDs 152 maximum capacity 149 mounting in a rack 317–320, 372 replacing 372 specifications 451, 452 temperature requirements 152 with optical devices 152 M MAC address 192 management port connecting to switch 260 for stacked configurations 221 settings 260 X435 series 22, 23 X440-G2 series 30–32 X450-G2 series 47 X460-G2 series 58, 59 X465 series 74–77 X590 series 83 X620 series 89 X670-G2 series 96 X690 series 100, 101 X695 107, 109 X870 series 112,
Index power specifications (continued) X450-G2 switch 395, 396 X460-G2 switch 404, 405 X465 switch 413, 414 X590 switch 418, 419 X620 switch 423 X670-G2 switch 427, 428 X690 switch 431, 432 X695 switch 436 X870 switch 441, 442 power supply RPS-150XT 274–277, 343, 467, 468 RPS-500p 278, 280, 344 RPS-90 466 STK-RPS-1005PS 287, 289, 344, 472, 473 VX-RPS-1000 291, 292, 345, 474 power supply unit (PSU) 1100 W 246, 363, 365–367 1100 W AC 137, 258, 464 1100 W DC 137, 465 2000 W AC 138, 258, 465 300 W 349, 351 300
Index replacing (continued) 750 W DC power supply 358–361 770 W AC power supply 338 clock module 373 fan module 370 Half-Duplex to Full-Duplex Converter 372 LRM/MACsec Adapter 372 V300 Virtual Port Extender 371 V400 Virtual Port Extender 371 versatile interface module (VIM) 373 restricted 166 restricted access 166 RFI, see radio frequency interference (RFI) ring topology 184 RJ45 cable 175 RPS, see redundant power supply (RPS) RPS-150XT power supply connecting to power 277 installing 274–276 overview 125 r
Index stacking (continued) recommendations 194, 195 redundancy 182 ring topology 184 single-rack 216, 217 slot number 181 stack number indicator 28, 46, 56, 72, 81, 82, 95, 99, 116, 181 SummitStack-V160 215 SummitStack-V320 216 terminology 190 tool 212 top of rack 218 troubleshooting 181 VIM2 215 web app 212 with VIM1-SummitStack Modules 217 with VIMs 218 X440-G2 switch 196 X450-G2 series switches 197, 198 X460-G2 series switches 198–202 X465 series switches 202 X590 series switches 203 X620 series switche
Index V V-320 stacking 216 V300 virtual port extender specifications 444, 446, 447 V300 Virtual Port Extender DIN rail mounting in a rack 310 environmental data 446 installing 295, 296, 300, 302, 304, 307, 310, 313, 314 mounting in a rack 295, 296, 302, 304, 307, 313, 314 power specifications 445, 446 replacing 371 table 300 V300 virtual port extender LEDs 147 V300-8P-2T-W 144 V300-8T-2X 143 V400 virtual port extender specifications 447, 449, 450 V400 Virtual Port Extender acoustic noise 449 environmental
Index X440-G2 series switches (continued) X440-G2-12t-10GE4 switch 33 X440-G2-12t8fx-GE4 switch 43 X440-G2-24fx-GE4 switch 44 X440-G2-24p-10GE4 switch 37 X440-G2-24t-10GE4 switch 35 X440-G2-24t-10GE4-DC switch 40 X440-G2-24t-GE4 switch 45 X440-G2-24x-10GE4 switch 36 X440-G2-48p-10GE4 switch 39 X440-G2-48t-10GE4 switch 38 X440-G2-48t-10GE4-DC switch 42 X450-G2 series switches 350 W AC power supply 258 715 W AC power supply 330 acoustic noise 394 fan speed 394 features 47 LEDs 56 power specifications 395, 39
Index X670-G2 series switches (continued) specifications 426, 428, 429 stacking 204, 205 with LRM/MACsec Adapter 149 X670-G2-48x-4q switch 98 X670-G2-72x switch 99 X690 series switches 1100 W DC power supply 137, 246, 465 770 W AC power supply 136, 462 acoustic noise 431 features 100, 101 LEDs 105 power specifications 431, 432 specifications 430–433 stacking 205 with LRM/MACsec Adapter 149 X690-48t-2q-4c switch 103 X690-48x-2q-4c switch 104 X695 series switches LEDs 109 specifications 434, 436–438, 440 X69