ExtremeSwitching and Summit Switches: Hardware Installation Guide for Switches Using ExtremeXOS 21 or 22 121137-05 Rev.
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Table of Contents Preface......................................................................................................................................... 6 Audience................................................................................................................................................................................... 6 Conventions..................................................................................................................................................
Table of Contents Connecting Network Interface Cables.................................................................................................................. 220 Performing Initial Management Tasks....................................................................................................................220 Chapter 7: Installing External Power Supplies.................................................................. 224 Safety Considerations for Installing Power Supplies................
Table of Contents Appendix A: Technical Specifications................................................................................. 315 ExtremeSwitching X435 Series Switches Technical Specifications......................................................... 315 ExtremeSwitching X440-G2 Series Switches Technical Specifications............................................... 320 ExtremeSwitching X450-G2 Series Switches Technical Specifications................................................
Preface This guide provides the instructions and supporting information needed to install the following Extreme Networks® ExtremeSwitching® and Summit® family switches: • ExtremeSwitching X440-G2 Series Switches on page 12 • ExtremeSwitching X450-G2 Series Switches on page 30 • ExtremeSwitching X460-G2 Series Switches on page 41 • ExtremeSwitching X590 Series Switches on page 57 • ExtremeSwitching X620 Series Switches on page 63 • ExtremeSwitching X670-G2 Series Switches on page 70 • ExtremeSwitching X690 S
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1 ExtremeSwitching Switches Overview of the Switches ExtremeSwitching X440-G2 Series Switches ExtremeSwitching X450-G2 Series Switches ExtremeSwitching X460-G2 Series Switches ExtremeSwitching X590 Series Switches ExtremeSwitching X620 Series Switches ExtremeSwitching X670-G2 Series Switches ExtremeSwitching X690 Series Switches ExtremeSwitching X770 Series Switches ExtremeSwitching X870 Series Switches Pluggable Interfaces for the Switches The ExtremeSwitching switches are compact enclosures 1.
ExtremeSwitching Switches Overview of the Switches The following sections describe the ExtremeSwitching switches and summarize the features available in each series. Model numbers for the switches are in the following format: - • • • The number of ports ranges from 8 to 72. The port type can be t (copper), p (copper providing PoE), q (QSFP+), or x (fiber).
ExtremeSwitching Switches failure occurs or a user changes the assignment using the CLI. For more information about configuring automatic failover on combination ports, see the ExtremeXOS 22.6 User Guide. Port Partitioning On some ExtremeSwitching switch models, you can configure QSFP28 and QSFP+ ports either as single ports or as multiple, partitioned ports. In a partitioned port, with appropriate cabling, the original physical port can accommodate multiple data lanes at lower bandwidths.
ExtremeSwitching Switches 10/100/1000BASE-T ports or 100/1000 BASE-X ports. In addition, some models offer IEEE 802.3at PoE + ports. Note An extended-temperature model, 24fx-GE4, provides 24 ports of 100Base-FX. Another extended-temperature model, 12t8fx-GE4, provides 12 ports of 10/100/1000BASE-T and eight ports of 100Base-FX.
ExtremeSwitching Switches Stacking Up to eight X440-G2 switches can be stacked using SummitStack-V. Each X440-G2 unit (except the extended temperature range switches) comes equipped with two stacking ports using an SFP+ interface. Standard 10 Gb Ethernet Optics and passive and active cables can be used in the SFP+ ports for stacking X440-G2s together using SummitStack-V.
ExtremeSwitching Switches X440-G2 switch, the internal and external power supplies are fully fault tolerant. If one power supply fails, the other power supply will provide sufficient power to operate the switch. All X440-G2 switches support external redundant power options. For details, refer to Table 30 on page 93. Note See the ExtremeXOS 22.6 User Guide and the ExtremeXOS 22.6 Command Reference Guide for feature-specific information about the switches and for information regarding switch configuration.
ExtremeSwitching Switches 3 = USB port (active with ExtremeXOS version 22.2 or later) Figure 2: ExtremeSwitching X440-G2-12t-10GE4 Rear Panel 1 = Redundant power input 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 Figure 3: ExtremeSwitching X440-G2-12p-10GE4 Front Panel 1 = Stack number indicator 4 = 10/100/1000BASE-T copper ports 2 = Console port/Ethernet management port 5 = SFP Ports upgradeable to 10GBASE-X 3 = USB port (active with ExtremeXOS version 22.
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. 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 2.0 port, operational on switches running ExtremeXOS version 22.2 or later. One rear redundant power supply connector.
ExtremeSwitching Switches • • • • 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. In the latter configuration, an additional license would be required for the 10Gb non-stacking ports. Ethernet management port (10/100/1000BASE-T).
ExtremeSwitching Switches • • • • 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. In the latter configuration, an additional license would be required for the 10Gb non-stacking ports. Ethernet management port (10/100/1000BASE-T).
ExtremeSwitching Switches • • • • • • • • 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. 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..
ExtremeSwitching Switches 2 = 1GBASE-T combination ports upgradeable to 10GBASE-T 5 = Grounding lug 3 = Redundant power input ExtremeSwitching X440-G2-48p-10GE4 Switch Ports and Slots The ExtremeSwitching X440-G2-48p-10GE4 switch ports and slots include: • • • • • • • • 48 front panel PoE+ ports of 10/100/1000BASE-T. Both half-duplex and full-duplex communication are supported on ports 1 through 16 and 25 through 40. The rest of the ports are full-duplex only.
ExtremeSwitching Switches Figure 14: ExtremeSwitching X440-G2-48p-10GE4 Rear Panel 1 = SFP Ports upgradeable to 10GBASE-X 4 = Redundant power input 2 = 1GBASE-T combination ports upgradeable to 10GBASE-T 5 = Grounding lug 3 = AC power input socket ExtremeSwitching X440-G2-24t-10GE4-DC Switch Ports and Slots The ExtremeSwitching X440-G2-24t-10GE4-DC switch ports and slots include: • • • • • • • 24 front panel ports of 10/100/1000BASE-T (RJ45).
ExtremeSwitching Switches 1 = Stack number indicator 4 = 10/100/1000BASE-T ports 2 = Console port/Ethernet management port 5 = 1GBASE-X SFP combination ports 3 = USB port (active with ExtremeXOS version 22.
ExtremeSwitching Switches Figure 17: ExtremeSwitching X440-G2-48t-10GE4-DC Front Panel 1 = Stack number indicator 4 = 10/100/1000BASE-T ports 2 = Console port/Ethernet management port 5 = 1GBASE-X SFP combination ports 3 = USB port (active with ExtremeXOS version 22.
ExtremeSwitching Switches • • One front panel USB 2.0 port, operational on switches running ExtremeXOS version 22.2 or later. One rear redundant power supply connector. The X440-G2 12t8fx-GE4 switch supports an operating range from 0°C to 60°C. Figure 19: ExtremeSwitching X440-G2-12t8fx-GE4 Front Panel 1 = Stack number indicator 4 = 10/100/1000BASE-T ports 2 = Console port/Ethernet management port 5 = 1GBASE-X SFP ports 3 = USB port (active with ExtremeXOS version 22.
ExtremeSwitching Switches • 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. 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 2.0 port, operational on switches running ExtremeXOS version 22.2 or later. One rear redundant power supply connector.
ExtremeSwitching Switches • • • • • • 24 front panel 10/100/1000BASE-T ports (RJ45). Both half-duplex and full-duplex communication are supported on ports 1 through 16. Ports 17 through 24 are full-duplex only. Four unpopulated front panel 1GBASE-X SFP 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. One front panel USB 2.0 port, operational on switches running ExtremeXOS version 22.
ExtremeSwitching Switches Table 4: X440-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 Link OK on the indicated stacking port Blinking green Activity on the indicat
ExtremeSwitching Switches Table 5: Additional Port LED Meanings for PoE Switches: X440-G2-12p-10GE4, X440G2-24p-10GE4, and X440-G2-48p-10GE4 Label or Type Color/State Meaning All front panel ports 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 powered Slow blinking amber No link, or disabled port; port is powered
ExtremeSwitching Switches Each base model supports front-to-back cooling only. Switch cooling is provided by a replaceable fan module. Note The fan module must be ordered separately. A serial console port on the front panel of the X450-G2 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.
ExtremeSwitching Switches Figure 25: X450-G2-24t-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 Figure 26: X450-G2-24t-GE4 Rear Panel 1 = 21 Gb stacking ports (QSFP+) 4 = AC power input connector 2 = Redundant power supply (RPS) connector 5 = Grounding screw 3 = Front-to-back fan module slot ExtremeSwitching X450-G2-24t-10GE4 Switch Ports and Slots X450-G2-24t-10GE4 switch ports and slots include
ExtremeSwitching Switches Figure 27: X450-G2-24t-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 Figure 28: X450-G2-24t-10GE4 Rear Panel 1 = 21 Gb stacking ports (QSFP+) 4 = AC power input connector 2 = Redundant power supply (RPS) connector 5 = Grounding screw 3 = Front-to-back fan module slot ExtremeSwitching X450-G2-48t-GE4 Switch Ports and Slots X450-G2-48t-GE4 switch ports and slots inclu
ExtremeSwitching Switches Figure 29: X450-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 Figure 30: X450-G2-48t-GE4 Rear Panel 1 = 21 Gb stacking ports (QSFP+) 4 = AC power input connector 2 = Redundant power supply (RPS) connector 5 = Grounding screw 3 = Front-to-back fan module slot ExtremeSwitching X450-G2-48t-10GE4 Switch Ports and Slots X450-G2-48t-10GE4 switch ports and slots include
ExtremeSwitching Switches Figure 31: X450-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 Figure 32: X450-G2-48t-10GE4 Rear Panel 1 = 21 Gb stacking ports (QSFP+) 4 = AC power input connector 2 = Redundant power supply (RPS) connector 5 = Grounding screw 3 = Front-to-back fan module slot ExtremeSwitching X450-G2-24p-GE4 Switch Ports and Slots X450-G2-24p-GE4 switch ports and slots inclu
ExtremeSwitching Switches Figure 33: X450-G2-24p-GE4 Front Panel 1 = Stack number indicator 4 = PoE+ 10/100/1000BASE-T ports 2 = Console port/Ethernet management port 5 = SFP 1G ports 3 = USB port Figure 34: X450-G2-24p-GE4 Rear Panel 1 = 21 Gb stacking ports (QSFP+) 3 = Front-to-back fan module slot 2 = Grounding screw 4 = PoE+ power supply bays ExtremeSwitching X450-G2-24p-10GE4 Switch Ports and Slots X450-G2-24p-10GE4 switch ports and slots include: • 24 front panel PoE+ ports of 10/100/1000BAS
ExtremeSwitching Switches Figure 35: 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 Figure 36: X450-G2-24p-10GE4 Rear Panel 1 = 21 Gb stacking ports (QSFP+) 3 = Front-to-back fan module slot 2 = Grounding screw 4 = PoE+ power supply bays ExtremeSwitching X450-G2-48p-GE4 Switch Ports and Slots X450-G2-48p-GE4 switch ports and slots include: • 48 front panel PoE+ ports of 10/100
ExtremeSwitching Switches Figure 37: X450-G2-48p-GE4 Front Panel 1 = Stack number indicator 4 = PoE+ 10/100/1000BASE-T ports 2 = Console port/Ethernet management port 5 = SFP 1GBASE-X ports 3 = USB port Figure 38: X450-G2-48p-GE4 Rear Panel 1 = 21 Gb stacking ports (QSFP+) 3 = Front-to-back fan module slot 2 = Grounding screw 4 = PoE+ power supply bays ExtremeSwitching X450-G2-48p-10GE4 Switch Ports and Slots X450-G2-48p-10GE4 switch ports and slots include: • 48 front panel PoE+ ports of 10/100/1
ExtremeSwitching Switches Figure 39: X450-G2-48p-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 Figure 40: X450-G2-48p-10GE4 Rear Panel 1 = 21 Gb stacking ports (QSFP+) 3 = Front-to-back fan module slot 2 = Grounding screw 4 = PoE+ power supply bays ExtremeSwitching X450-G2 Series Switch LEDs The following sections describe the meanings of the LEDs on X450-G2 series switches.
ExtremeSwitching Switches Table 7: 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 Steady green Link OK Blinking green Activity on the indicated port Off No 1G o
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 • • 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. Versatile Interface Module (VIM) Options for X460-G2 Series Switches The following VIMs are available for X460-G2 series switches: • • • • • VIM-2q Ethernet Module with 2x40G ports. VIM-2ss SummitStack Module VIM-2t Ethernet Module with 2x10GBASE-T ports.
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 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 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 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.
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.
ExtremeSwitching Switches Figure 51: 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 Figure 52: X460-G2-48t-GE4 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 ExtremeSwitching X460-G2-48t-10GE4 Switch Ports and Slots X460-G2-48t-10GE4 switch ports and slots include: • • • • • • • • • 48 front panel po
ExtremeSwitching Switches Figure 53: 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 Figure 54: X460-G2-48t-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 ExtremeSwitching X460-G2-24t-24ht-10GE4 Switch Ports and Slots X460-G2-24t-24ht-10GE4 switch ports and slots include: • • • • • • • • • •
ExtremeSwitching Switches Figure 55: 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 56: 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 to collect statistics on packet collisions for the X460-G2-
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.
ExtremeSwitching Switches Figure 59: 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 Figure 60: Summit X460-G2-48p-GE4 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 ExtremeSwitching X460-G2-48p-10GE4 Switch Ports and Slots X460-G2-48p-10GE4 switch ports and slots include: • • • • • • • • •
ExtremeSwitching Switches Figure 61: 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 Figure 62: X460-G2-48p-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 ExtremeSwitching X460-G2-24p-24hp-10GE4 Switch Ports and Slots X460-G2-24p-24hp-10GE4 switch ports and slots include: • • • • • • • •
ExtremeSwitching Switches Figure 63: 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 64: 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 is not possible to collect statistics on packet collisions for th
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 65: X460-G2-16mp-32p-10GE4 Front Panel 1 = USB port 4 = PoE+ 100/1000/2.
ExtremeSwitching Switches Table 10: 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 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 Power failure Off No power is attached Steady green
ExtremeSwitching Switches Table 12 describes the meanings of the two-digit stack number indicator on all X460-G2 series switches.
ExtremeSwitching Switches Two power supply bays accommodate either AC or DC power supplies. Power supplies have integrated cooling fans that operate independently of the switch fans. Like the fan modules, the power supplies are available in models with either front-to-back or back-to-front cooling airflow. All installed fan modules and power supplies in a X590 series switch must have the same airflow direction. X590 series switches require ExtremeXOS version 22.6 or later.
ExtremeSwitching Switches Table 13: Port Number Assignments (in 40 Gb Mode) Physical Port Number (on Switch) Has these Assigned Port Number(s).... ...with this Port Speed 25-28 25 40 Gb 25,26,27,28 10 Gb 29 40 Gb 29,30,31,32 10 Gb 33 40 Gb 33,34,35,36 10 Gb 29-32 33-36 Table 14: Port Number Assignments (in 100 Gb Mode) Physical Port Number (on Switch) Has these Assigned Port Number(s).... ...
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 Switches • • • • • For information about QSFP28 and QSFP+ optical modules, see the Extreme Networks Pluggable Transceivers Installation Guide. 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.
ExtremeSwitching Switches Table 15: 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 ACT LK (Link) P1, P2 (Power Supply) F1 - F4 (Fan) 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
ExtremeSwitching Switches Table 16: 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 switches for 10 Gb edge applications w
ExtremeSwitching Switches • One 10/100/1000BASE-T Ethernet management port. Additional ports on various models include the following: Table 17: X620 Series Switches and Port Types 100Mb/1 Gb/10GBASE-T X620-8t-2x 100Mb/1 Gb/2.
ExtremeSwitching Switches • • One front panel USB 2.0 port, operational on switches running ExtremeXOS version 22.2 or later. One rear redundant power supply connector. Figure 72: 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 • • • 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 74: ExtremeSwitching X620-10x Front Panel 1 = Stack number indicator 3 = USB port (active with ExtremeXOS version 22.
ExtremeSwitching Switches • • • • 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 Figure 78: ExtremeSwitching X620-16x Front Panel 1 = Stack number indicator 3 = USB port (active with ExtremeXOS version 22.
ExtremeSwitching Switches Figure 80: ExtremeSwitching X620-16p Front Panel 1 = Stack number indicator 4 = 100Mb/1 Gb/2.
ExtremeSwitching Switches Table 18: 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 Steady green Normal operation Blinking amber Failure Off No power Steady green Normal operation Blinking amber Input or output power failure Off Not present Steady green Normal operation Blinking amber When RPS is present, no supply from PSU Off No
ExtremeSwitching Switches • ExtremeSwitching X670-G2-72x Switch Ports and Slots on page 72 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.
ExtremeSwitching Switches • • • • • • • • 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. Four 40GBASE-X unpopulated QSFP+ ports (ports 49, 53, 57, and 61 in unpartitioned 40G mode or ports 49 to 64 in partitioned 10G mode) that provide 40 Gbps of fiber connectivity. Of these four ports, two (using SummitStack-V160) or all four (SummitStack-V320) can be configured as stacking ports.
ExtremeSwitching Switches • • • • • • • 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. Rear panel USB port. Rear dual PSU power slots with front-to-back or back-to-front airflow.
ExtremeSwitching Switches Table 20: 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. Blinking amber Failure. Off No power.
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. With appropriate cabling, each of the two QSFP+ ports can be partitioned into four 10 Gb ports. • Four QSFP28 based 100 Gb ports.
ExtremeSwitching Switches Port numbers are assigned depending on whether the physical ports are partitioned into data lanes. To illustrate, Figure 86 shows the physical ports on the X690 front panel that can be partitioned. Table 22 on page 76 and Table 23 on page 77 detail how port numbers are assigned for each of the physical ports. Figure 86: X690 Ports that Can Be Partitioned into Data Lanes The ports labeled 49-52 and 53-56 operate in 40 Gb mode, acting as single 40 Gb ports or multiple 10 Gb ports.
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 69-72 69 40 Gb 69,70,71,72 10 Gb Table 23: Port Number Assignments (in 100 Gb Mode) Physical Port Number (on Switch) Has these Assigned Port Number(s).... ...
ExtremeSwitching Switches • • • 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 Switches • • • 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 Switches Table 24: 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 Steady green Management port link up O
ExtremeSwitching Switches Table 25: 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 X770 Series Switches The X770 series switches have 32 front-panel Ethernet ports that can provide 40-gig
ExtremeSwitching Switches Two power supply bays accommodate either AC or DC power supplies. Power supplies have integrated cooling fans that operate independently of the switch fans. Like the fan modules, the power supplies are available in models with either front-to-back or back-to-front cooling airflow. Note Air must flow in the same direction for all installed fan modules and power supplies in a switch. X770 series switches require ExtremeXOS version 15.4.1.
ExtremeSwitching Switches • • • • • When ports are used for stacking they are not available for normal Ethernet connectivity. For more information about stacking, see Building Stacks on page 136. Management port (10/100/1000-Mbps). Front panel USB port for access to external storage. RJ45 RS-232c serial console port used to connect a terminal and perform local management. LEDs to indicate port status and switch operating conditions.
ExtremeSwitching Switches Table 27: X770 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. Blinking amber Failure. Off No power.
ExtremeSwitching Switches Table 28: 2-digit Stack Number Indicator (continued) Label or Type Color/State Meaning Stacking Ports 10G mode (Alternate stacking) ports 103 and 104 Steady green Link OK Blinking green Activity Off No link or port disabled ExtremeSwitching X870 Series Switches The X870 series switch is a 100 Gb switch suited for large datacenter applications. Front-panel Ethernet ports can provide 100-gigabit Ethernet connectivity using installable QSFP28 and QSFP+ optical modules.
ExtremeSwitching Switches Figure 92: 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. In 100-gigabit mode, each port can be partitioned into two 50-gigabit data lanes or four 25-gigabit data lanes. Management A serial console port on the front panel of the X870 series switch allows you to connect a terminal and perform local management.
ExtremeSwitching Switches 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. There is also a USB console port. If the USB console port is connected, it will be selected over the RJ45 console port. Cooling Each base model is available with either front-to-back or back-to-front cooling. There is no operational difference between these switch versions.
ExtremeSwitching Switches • • 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 89.
ExtremeSwitching Switches • • • • • 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. 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 89.
ExtremeSwitching Switches Table 29: 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 PWR Blinking amber MGMT FAN 1, 2, 3, 4, 5, 6 Locator Ethernet ports 1-32 (no
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.
2 Power Supplies for Use with Your Switch External Power Supplies Replaceable Internal Power Supplies Displaying the Status of Installed Power Supplies 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 104.
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 Table 30: 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 150 W Non-PoE Redundant Power Supply STK-RPS-150PS 150 W RPS-150X
Power Supplies for Use with Your Switch Table 31: 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-500p: 10923 750 W Power Suppl
Power Supplies for Use with Your Switch The EPS-C2 system is compatible with the following switch models: • X440-G2-12p-10GE4 switch • X440-G2-24t-10GE4 switch • X440-G2-24p-10GE4 switch • X440-G2-24x-10GE4 switch • X440-G2-48t-10GE4 switch • X440-G2-24t-10GE4-DC switch • X440-G2-48t-10GE4-DC switch • X440-G2-12t8fx-GE4 switch • X440-G2-24x-GE4 switch • X440-G2-24t-GE4 switch • X450-G2 series switches (all models) • X620-8t-2x switch • X620-10x switch The EPS-C2 system provides redundant power for up to fi
Power Supplies for Use with Your Switch connected switches. The PoE power supplied does not increase more than 380-watt even if additional PSUs are installed. Internal-to-External Power Supply Transfer When a EPS-C2 is connected to the switch and the internal power supply fails, power is drawn from the EPS-C2 without power interruption to the switch or PoE connected devices.
Power Supplies for Use with Your Switch RPS-90 Redundant Power Supply Notice 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 • • • • • • • • • • ExtremeSwitching X440-G2-24t-10GE4 switch ExtremeSwitching X440-G2-24x-10GE4 switch ExtremeSwitching X440-G2-48t-10GE4 switch ExtremeSwitching X440-G2-24t-10GE4-DC switch 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 ExtremeSwitching X620-8t-2x switch ExtremeSwitching X620-10x switch Figure 98: RPS-150XT Front Panel 1 = Capt
Power Supplies for Use with Your Switch Table 34: 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 384. RPS-500p Redundant Power Supply Notice Extreme Redundant Power Supplies (RPS) do not support the ability for the RPS to be connected to an operational switch.
Power Supplies for Use with Your Switch Table 35: 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 2 3 4 Check AC power cord connection to the power supply. Check AC power at the power outlet. Swap power cord for a known good one. If the problem persists, contact Extreme Networks for support.
Power Supplies for Use with Your Switch Table 36: 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 2 3 4 Check AC power cord connection to the power supply. Check AC power at the power outlet. Swap power cord for a known good one. If the problem persists, contact Extreme Networks for support.
Power Supplies for Use with Your Switch 1 = Captive screws 4 = AC power input connector 2 = Status LEDs 5 = Handle 3 = Fans Figure 101: STK-RPS-1005PS Rear Panel 1 = 18-pin Redundant Power Supply connector Table 37: 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 providing 55 VDC to the system Off Power supply malfunctioning DC OK For t
Power Supplies for Use with Your Switch Figure 102: VX-RPS-1000 Front Panel 1 = Captive screws 3 = Connector to port extender 2 = Status LEDs 4 = AC power input connector Table 38: VX-RPS-1000 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 DC input within operational range Off No DC voltage or DC voltage is outside the operational range DC OK For technical specifications, inclu
Power Supplies for Use with Your Switch Table 39: Replaceable Internal Power Supply Compatibility Hardware Model AC Power Supplies: Part No. DC Power Supplies: Part No.
Power Supplies for Use with Your Switch These power supplies are compatible with the following switch models: • X460-G2 switches (non-PoE models) • X620-16t and X620-16x switches The Summit 300 W power supplies (AC and DC) have the status LEDs listed in the following table. Table 40: Summit 300 W Power Supply LED Status Indications LED Label and Color Meaning In OK Green Out DC OK Green/red bicolor Off Off No input power Off Steady red No input power; receiving standby output from system.
Power Supplies for Use with Your Switch Summit 550 W AC and DC Power Supplies Summit 550 W power supplies are available in the following models: • 550 W AC PSU-FB (Part number 10925)—AC power supply with front-to-back ventilation airflow • 550 W DC PSU-FB (Part number 10926)—DC power supply with front-to-back ventilation airflow • 550 W AC PSU-BF (Part number 10927)—AC power supply with back-to-front ventilation airflow • 550 W DC PSU-BF (Part number 10928)—DC power supply with back-to-front ventilation ai
Power Supplies for Use with Your Switch Table 43: Summit 715 W AC Power Supply LED Status Indications IN_OK (Green) OUT_OK (Green/RED) Description Off Off No AC input power connection or low AC voltage. On Off AC input good, 54V output disabled. On (Red) On AC input good, output (54V) fault. On (Green) On AC input good, DC outputs in spec. Summit 750 W AC Power Supply The Summit 750 W AC power supply is used in the EPS-C2 external power system (see EPS-C2 Redundant Power System on page 95).
Power Supplies for Use with Your Switch • • 750W DC power supply - front-to-back airflow (part no. XN-DCPWR-750W-F) 750W DC power supply - back-to-front airflow (part no. XN-DCPWR-750W-R) Note AC power input cords are not provided with AC power supplies. You can order an appropriate cord from Extreme Networks or from your local supplier. The power cord must meet the requirements listed in Power Cord Requirements for AC-Powered Switches and AC Power Supplies on page 393.
Power Supplies for Use with Your Switch Table 46: 750 W DC Power Supply LED Status Indications Label and Color Description ! Amber Fault Indicator On (Solid) OUT OK (Green) IN OK (Green) DC output Good State Meaning PSU fault Off No PSU fault On (solid) DC output OK Off or Blinking DC output fail DC input Good On "IN OK" Off DC input OK DC input fail Summit 770 W AC Power Supplies Summit 770 W AC power supplies are available in the following models: • • 770 W AC PSU-FB (Model 10960)—AC p
Power Supplies for Use with Your Switch The Summit 1100 W AC PSU-FB power supply (Model 10941) is compatible with the X450-G2 PoE and X465 PoE (-48P, X465-48W, X465-24MU, X465-24MU-24W, X465-24W) switch models. The Summit 1100 W AC power supplies have a keyed power inlet (C16) that requires a notched (C15) power cord. The Summit 1100 W AC power supplies have the status LEDs listed in Table 48.
Power Supplies for Use with Your Switch • • • • • The current state of the power supply (powered off or powered on). Whether the unit is an internal or external power supply. Power input, output, and usage statistics. Airflow direction (for internal power supplies). Additional details for switches in stacked configurations. For more information, see the ExtremeXOS 22.6 Command Reference Guide.
3 Expansion Modules V400 Virtual Port Extender Solid-state Drives Optional Ports for X460-G2 Switches Several different hardware accessories are available for expanding the capabilities of your Extreme Networks switch. Collectively, they are referred to as expansion modules. • • Port option cards and versatile interface modules (VIMs) are installed in dedicated slots at the back of the switch to provide optional I/O ports or stacking ports.
Expansion Modules Table 50: Compatibility of Expansion Modules (continued) Module Type Name No.
Expansion Modules Figure 103: V400 Virtual Port Extender Front Panel (48-port Model Shown) 1 = 10/100/1000BASE-T ports 3 = 10Gb SFP+ ports 2 = Console/management port 4 = USB port Figure 104: V400 Virtual Port Extender Rear Panel 3 = AC power input connector 1 = Grounding lug 2 = RPS connector (some models Solid-state Drives Solid-state Drives (SSD) provide modular storage support.
Expansion Modules • • 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 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 Figure 107: VIM-2t Ethernet Module Option 1 = LEDs 2 = 10G BASE-T ports VIM-2x Ethernet Module Port Option Card The VIM-2x Ethernet Module option card, shown in Figure 108, 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 the X460-G2. The 1588v2 Precision Time feature on the X460-G2 requires the TM-CLK module and the Network Timing Feature Pack, and does not support stacking. Two mini-BNC outputs deliver the following signals: • 10MHz frequency reference • 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.
4 Site Preparation Planning Your Site Operating Environment Requirements Rack Specifications and Recommendations Evaluating and Meeting Cable Requirements Meeting Power Requirements Following Applicable Industry Standards 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 To run your equipment safely, you must meet the specific power requirements for each switch and external power supply unit installed in the system. For power specifications of the switches, see the specific switch listings in Technical Specifications on page 315. Operating Environment Requirements Verify that your site meets all environmental and safety requirements. Virtually all areas of the United States are regulated by building codes and standards.
Site Preparation Table 52: Authorities on Electrical Codes (continued) Organization Address Web Site URL Electronic Components Industry Association (ECIA) Trade association that develops technical standards, disseminates marketing data, and maintains contact with government agencies in matters relating to the electronics industry. ECIA 111 Alderman Drive Suite 400 Alpharetta, GA 30005 USA www.ecianow.
Site Preparation • • • • 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. Keep the ventilation in the wiring closet running during non-business hours; otherwise, the equipment can overheat. Maintain a storage temperature between -40°C (-40°F) and 70°C (158°F). Table 53 on page 123 summarizes the behavior of ExtremeSwitching switches when they experience high operating temperatures.
Site Preparation Table 54: Ambient Temperature Range for Switches (continued) Switch Series Ambient Operating Temperature Range X770 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.
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. • • AC-powered switches do not need separate chassis grounding.
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 110: Properly Secured Rack Brace open equipment racks if the channel thickness is less than 6.4 mm (1/4 in).
Site Preparation • • • • 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 When you connect cable to your network equipment, keep the following things in mind.
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 111: 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 that the bend radius for fiber optic cable equal at least 5 cm (2 in) for each 90-degree turn as shown in Figure 112. Note Kinks and sharp bends can destroy or impair the cable’s ability to convey light pulses accurately from one end of the cable to the other. Use care in dressing the optical fiber cables: provide satisfactory strain relief to support the cable and maintain an adequate bend radius at all cable turns, particularly where the cable connects to the I/O module.
Site Preparation Table 55: Cable Distances and Types (continued) 1 Standard Media Type MHz•km Rating Maximum Distance (Meters) 1000BASE-LX (1300nm optical window) 50/125 µm multimode fiber 400 550 50/125 µm multimode fiber 500 550 62.
Site Preparation Table 56 and Table 57 on page 131 list direct-attach cables available from Extreme Networks.
Site Preparation Figure 113: 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. RF interference can cause degradation of signal quality, and, in an Ethernet network environment, can cause excessive collisions, loss of link status, or other physical layer problems that can lead to poor performance or loss of communication.
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.
Site Preparation • • • • Restart equipment after a long power outage. Display the voltage currently on the line. Provide alarms on certain error conditions. Provide short-circuit protection.
Site Preparation DC Power Requirements This system should be installed in a DC-I battery return configuration. In a DC-I configuration, the battery return conductor should be connected directly to the central office power return bus, and not to the equipment frame or the grounding means of the equipment. Following Applicable Industry Standards Always follow applicable industry standards.
5 Building Stacks Introduction to Stacking Planning to Create Your Stack Setting up the Physical Stack 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 Stacks Figure 114: 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 Stacks Some stackable switches have a seven-segment LED, called the stack number indicator on the front panel. (See Figure 115.) 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.
Building Stacks the 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.
Building Stacks 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 . A stack topology is the set of contiguous nodes that are powered up and communicating with each other. In the example shown, Switch 8 is not part of the stack topology because it is not powered up. An active topology is the set of contiguous nodes that are active.
Building Stacks Figure 118: 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.
Building Stacks Figure 119: 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 master condition increases. Before you create a daisy chain topology, read "Managing a Dual Master Situation" in the ExtremeXOS 22.6 User Guide.
Building Stacks either data communications or stacking. When configured to support stacking, they are called alternate stacking ports to distinguish them from the native stacking ports that use custom cables. 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 Table 58: Native and Alternate Stacking Ports (continued) Switch Model Type or location of Native Stacking Ports Alternate Stacking Ports Location of Alternate Stacking Ports X460-G2-24t-GE4 X460-G2-24p-GE4 VIM-2ss or VIM-2q 33,34 VIM-2x 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 p
Building Stacks Table 59: SummitStack Methods 2 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 0.5 m - 40 km SFP+, XENPAK (with SR, LR, and ER) X440-G2 X450-G2 (10G models) X460-G2 (1G models with VIM-2x, VIM-2ss) X460-G2 (10G models) X620 X670-G2 X770 (ports 103,104) SummitStack-V80 (supported in EXOS 30.1 and prior releases only) 20 Gbps 0.
Building Stacks For more details about the stacking methods that are available for each switch series, see the topics listed in Stacking Considerations for Each Switch Model on page 151. Note Because all switches in the stack must run the same version of ExtremeXOS, it is not possible to stack switches that require ExtremeXOS version 21, for example the X440-G2 and the X620, with switches that are incompatible with ExtremeXOS version 21, for example the X440 and the X460.
Building Stacks Table 60: List of Stacking Terms (continued) Term Description Control path A data path that is formed over the stacking links that is dedicated to carrying control traffic, such as commands to program hardware or software image data for software upgrade. A node must join the control path to fully operate in the stack. A node that is disabled for stacking does not join the control path, but does communicate over the stack path. Active node A node that has joined the control path.
Building Stacks Table 60: List of Stacking Terms (continued) Term Description Data ports The set of ports on a stackable switch that are available for connection to your data networks. Such ports can be members of a user-configured VLAN or trunk group. They can be used for Layer 2 and 3 forwarding of user data traffic, for mirroring, or other features you can configure. Data ports are different from stacking ports.
Building Stacks • • Considerations for combining different switch models in a stack Information about stacking cables Enabling and Disabling the Stacking-Support Option The stacking-support option is enabled by default for many switch and option card configurations. However, some configurations require you to enable the stacking-support option before a switch can participate in a stack.
Building Stacks Follow the recommendations in Recommendations for Configuring Stacks on page 150 to configure the software for your stack. The recommended procedures for installing and interconnecting a stack are found in Setting up the Physical Stack on page 170. 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.
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 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 149. 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 162.
Building Stacks Table 64: Alternate Stacking Ports for X450-G2 Switches Switch Model Type or location of Native Stacking Ports Alternate Stacking Ports Location of Alternate Stacking Ports X450-G2-24t-10GE4 X450-G2-24p-10GE4 Fixed (rear panel) 27,28 Front panel X450-G2-48t-10GE4 X450-G2-48p-10GE4 Fixed (rear panel) 51,52 Front panel Additional Stacking Considerations for X450-G2 switches Before deploying a new stack with X450-G2 switches, consider the following guidelines: • Only the SummitSta
Building Stacks Table 65: 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 154. 0.5m, 1.5m, 3.0m, 5.0m SummitStack-V160 40 Gbps (rear panel, with VIM) See Native Stacking for X460-G2 Switches on page 154. QSFP+ SummitStack-V (front panel 10G models) See Alternate Stacking for X460-G2 Switches on page 155. 0.
Building Stacks 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 156 for additional considerations.
Building Stacks Additional Stacking Considerations for X460-G2 Switches When planning to use X460-G2 switches in a stack, note the following additional considerations: • When using the VIM-2ss module, you can enable stacking without enabling stacking-support because the ports are native to the switch. All other VIMs require stacking-support to be enabled. • The X460-G2 switch has “protocol enhanced” set by default. (Older switches, such as the X460, have “protocol standard” set by default.
Building Stacks Summit X460-G2 (1G Models Using VIM Ports) Stack Configuration Guidelines Before deploying a new stack with Summit X460-G2 1-gigabit switch models (GE4), consider the following guidelines: • SummitStack-V stacking is supported through an attached VIM: VIM-2x, VIM-2q, or VIM-2ss. • We recommend against mixing X450-G2, X460-G2, X770, and X670-G2 switches in a stack if the desired routing table exceeds the supported limit. • Support is available on ExtremeXOS version 16.1 or later.
Building Stacks Table 69 summarizes alternate stacking support for X620 switches. Table 69: 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 • 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 71 summarizes alternate stacking support for X670-G2 switches.
Building Stacks 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 149. Table 72 summarizes stacking support for X690 switches.
Building Stacks Table 74: Stacking Methods for X770 Switches Stacking Method Speed per Link (HDX) Cable Type and Lengths SummitStack-V (ports 103 and 104) 10 Gbps 1m and 2m QSFP+ 4xSFP+ fan-out cable SummitStack-V160 (ports 103 and 104) 40 Gbps 0.5m, 1m, and 3m (26 AWG) QSFP+ SummitStack-V320 (ports 101 and 103, and 102 and 104) 80 Gbps (combined over 0.5m, 1m, and 3m (26 paired ports) AWG) QSFP+ Native Stacking for X770 Switches The X770 supports SummitStack-V80, V160, and V320 stacking.
Building Stacks • • If the MPLS feature pack is installed on the master-capable nodes, the following guidelines apply: • Enhanced stacking must be configured on each switch in the stack. (In ExtremeXOS version 22.2 and later, enhanced stacking is configured automatically.) • We recommend against mixing X450-G2, X460-G2, X670-G2, and X770 switches in a stack if the desired routing table exceeds the supported limit. For the X770 switch, the limit is 98K IPv4 LPM routes.
Building Stacks • To select between the native and alternate stacking ports, use the following command for each switch in the stack: configure stacking-support stack-port [stack-ports | all] selection [native { | V160 |V320 | V400} | alternate] Note Not all options are available for all switches. Refer to Stacking Considerations for Each Switch Model on page 151 for details.
Building Stacks Table 77: Matrix of Switches and Stacking Methods Stack with X440G21 X450G22 X460G21 X440-G21 V V X450-G22 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 X620 V V V V V X670-G24 V V V V160 V V V80 (support ed in EXOS 30.
Building Stacks SS SummitStack V SummitStack-V V80 SummitStack-V80 (supported in EXOS 30.
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 Table 79: Available Stacking Cables for Extreme Networks Switches (continued) Part Number Cable Type, Length Compatible Ports and Devices 10313 QSFP+ direct-attach passive copper cable, 3 meters 21-Gbps stacking ports on X450-G2 switches, QSFP+ ports on X670-G2-48x-4q switches, and QSFP+ ports on X770 switches 10313A QSFP+ direct-attach passive copper cable, 3 meters, 26 AWG (for X770 to X770 stacking) 21-Gbps stacking ports on X450-G2 switches, QSFP+ ports on X670-G2-48x-4q switche
Building Stacks Table 80 lists cables and transceivers that require the use of V400 alternative-configuration: Table 80: Cables and Transceivers that Require Alternative Configuration Part Number Cable or Transceiver 10401 100Gb SR4 QSFP28 MMF transceiver 10403 100Gb LR4 QSFP28 transceiver 10404 100Gb CWDM4 QSFP28 SMF transceiver 10405 100Gb PSM4 QSFP28 SMF transceiver 10441 QSFP28 x 4SFP28 (4x25Gb) active optical breakout cable - 5 meters 10442 QSFP28 x 4SFP28 (4x25Gb) active optical breakout
Building Stacks 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 124: 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 Drag the rectangle to the first slot in the Stack column in the middle of the page.
Building Stacks Table 81: Colors in the Stacking Tool Display (continued) Color Meaning Yellow Incompatible with the selected master node Red Incompatible Setting 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 170. 2 Connect stacking cables to the switches.
Building Stacks Figure 125: 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 Using SummitStack-V320 Stacking A stacking rate of 320 Gbps can be achieved across a stack of X670-G2-48x-4q and X770 switches using the QSFP+ connection and cables. These switches can use 80-Gbps stacking connections that provide 320 Gbps full-duplex bandwidth. Table 83 lists the port pairings for SummitStack V-320 using the front panel ports on the Summit X770 switch.
Building Stacks Table 84: Basic Stack with Four Switches: Connections Connect this slot and port . . . . . . To this slot and port Slot 1 Stack Port 2 Slot 2 Stack Port 1 Slot 2 Stack Port 2 Slot 3 Stack Port 1 Slot 3 Stack Port 2 Slot 4 Stack Port 1 Slot 4 Stack Port 2 Slot 1 Stack Port 1 Example: Basic Stack with Eight Switches Figure 127 shows cable connections for an 8-node stack using SummitStack 40G cables to connect switches with integrated SummitStack ports.
Building Stacks Table 85: Basic Stack with Eight Switches: Connections (continued) Connect this slot and port . . . . . . To this slot and port Slot 7 Stack Port 2 Slot 8 Stack Port 1 Slot 8 Stack Port 2 Slot 1 Stack Port 1 Example: Stack with VIM1-SummitStack Modules Figure 128 shows an example of a four-switch stack that combines two different switch models: two of each model; four switches in all. For the first switch model, the stacking ports are on installed VIM1SummitStack modules.
Building Stacks Figure 129: SummitStack Connections Using Four Switches with SummitStack Ports on VIMs Table 86 lists the recommended order for connecting the stacking ports in this example. Table 86: Stacked Switches across Two Racks: Connections Connect this slot and port . . . . . .
Building Stacks Connecting Stacking Cables To connect switches in a SummitStack configuration, use the appropriate stacking cables for the specific stacking ports on the switches. Connecting a SummitStack Cable to a Stacking Port SummitStack cables are used to connect 20-Gbps SummitStack ports on the X460-G2 switch with the SummitStack plug-in module.
Building Stacks 1 Holding the QSFP+ connector by its sides, insert the connector into the port on the switch as shown in the following figures. Figure 132: Connecting a QSFP+ Passive Copper Direct-Attach Cable to a SummitStack-V Module Figure 133: 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.
Building Stacks so. There is an alternate IP address configuration that will enable you to log in directly to each switch in the stack through its Ethernet management port. See the ExtremeXOS 22.6 User Guide for instructions to perform the software configuration for your stack.
6 Installing Your Extreme Networks Switch Safety Considerations for Installing Switches Pre-installation Requirements Attaching the Switch to a Rack or Cabinet Installing Optional Components Installing Internal Power Supplies Connecting Power to the Switch Connecting Network Interface Cables Performing Initial Management Tasks Before you attempt to install or remove an Extreme Networks switch, read the precautions in Safety Considerations for Installing Switches on page 180.
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 185. 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 219. 6 For a stacked configuration, connect stacking cables.
Installing Your Extreme Networks Switch Provide enough space in front of and behind the switch so that you can service it easily. Allow a minimum of 48 inches (122 cm) in front of the rack and 30 inches (76 cm) behind the rack. 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.
Installing Your Extreme Networks Switch 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.
Installing Your Extreme Networks Switch Figure 135: 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 136 shows an example of a mid-mount installation.
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 184. 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 Your Extreme Networks Switch After the switch is secured to the rack or cabinet, install optional components using the instructions in Installing Optional Components on page 185. Then, if your switch does not have an installed power supply, install one or two power supplies using the instructions in Installing Internal Power Supplies on page 185. To determine which internal power supplies are compatible with your switch, see Replaceable Internal Power Supplies on page 104.
Installing Your Extreme Networks Switch Install a 300 W Internal DC Power Supply Caution Make sure that the DC power supply circuit is not overloaded. Use proper overcurrent protection, such as a circuit breaker, to prevent overcurrent conditions. You may use up to a 30-Amp breaker. To install a 300 W DC power supply (part no. 10933 or 10944) in a switch, perform the following tasks in the order listed: 1 2 3 4 5 6 Make sure you have the tools and materials you need.
Installing Your Extreme Networks Switch Preparing the Cables for a 300 W DC Power Supply You need a crimping tool to attach the terminals to the power and ground cables. To prepare the cable wires, follow these steps: 1 On each cable wire, strip 6 mm (0.25 inch) of insulation from one end. 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.
Installing Your Extreme Networks Switch To install the power supply, follow these steps: Caution The handle on the power supply is not designed to be used to lift or carry the power supply or the switch to which it is attached. 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 If necessary, remove a blank panel from the rear of the switch. Figure 140: Removing a Blank Panel 3 Verify that the power supply is right side up.
Installing Your Extreme Networks Switch 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. 7 Connect the ground wire, following the steps in Connecting the Ground Wire to a 300 W DC Power Supply on page 189. Connecting the Ground Wire to a 300 W DC Power Supply Follow these steps to connect the ground wire to a Summit 300 W DC power supply.
Installing Your Extreme Networks Switch 1 = Grounding point 2 = Ground wire b Tighten the screw to 12.6 in‑lb (1.42 N m). 6 Connect the other end of the wire to a known reliable earth ground point at your site. 7 Connect the power supply to the source, following the instructions in Connecting a 300 W DC Power Supply to the Source Voltage on page 190.
Installing Your Extreme Networks Switch a On each terminal, loosen the screw enough to allow the spade terminal to slide underneath the captive square washer. Figure 143: Loosening Terminal Screws (Connecting to a +24 V Source) b Slide the spade terminal of the negative wire (–24 V) under the captive square washer on the negative terminal (labeled –24 V).
Installing Your Extreme Networks Switch 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).
Installing Your Extreme Networks Switch a On each terminal, loosen the screw enough to allow the spade terminal to slide underneath the captive square washer. Figure 145: Loosening Terminal Screws (Connecting to a –48 V Source) b Slide the spade terminal of the negative wire (–48 V) under the captive square washer on the negative terminal (labeled –48 V).
Installing Your Extreme Networks Switch 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 146: Tightening Terminal Screws (Connecting to a –48 V Source) 5 Slide the cover into place over the terminal block.
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 550 W DC Power Supply on page 195. 3 Insert the power supply into the switch. See Installing a 550 W DC Power Supply on page 196. 4 Connect the ground wire. See Connecting the Ground Wire to a 550 W DC Power Supply on page 197. 5 Connect the power supply to the electrical source and energize the DC circuit.
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 147: Attaching a Spade Terminal to a Cable 3 Repeat step 2 for the other power cable wire and for the ground wire. Installing a 550 W DC Power Supply Before installing a Summit 550 W DC power supply: • • Verify that the switch rack or chassis has been grounded.
Installing Your Extreme Networks Switch 4 Carefully slide the power supply all the way into the power supply bay. Figure 149: 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 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 150: Connecting the Ground Wire b Slide the spade terminal of the ground wire under the captive square washer.
Installing Your Extreme Networks Switch c Tighten the screw to 7 in‑lb (0.79 N m) as shown in Figure 151. Figure 151: Securing the Ground Wire 6 Connect the other end of the wire to a known reliable earth ground point at your site. 7 Connect the power supply to the source, following the instructions in Connecting a 550 W DC Power Supply to the Source Voltage on page 199. Connecting a 550 W DC Power Supply to the Source Voltage Summit 550 W DC power supply units must connect to a –48V source.
Installing Your Extreme Networks Switch 4 On each terminal, loosen the screw enough to allow the spade terminal to slide underneath the captive square washer. 5 Connect the DC power input cables as follows: a Slide the spade terminal of the negative wire (–48 V) under the captive square washer on the negative terminal (labeled –).
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 +). Figure 153: Connecting the Positive Power Wire to a –48V Source (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.
Installing Your Extreme Networks Switch Installing a 750 W Internal DC Power Supply Caution Make sure that the DC power supply circuit is not overloaded. Use proper overcurrent protection, such as a circuit breaker, to prevent overcurrent conditions. You may use up to a 30-Amp breaker. To install a 750 W DC power supply in a switch, perform the following tasks in the order listed: 1 Make sure you have the tools and materials you need.
Installing Your Extreme Networks Switch To prepare the cable wires, follow these steps: 1 On each cable wire, strip 6 mm (0.25 inch) of insulation from one end. 2 Repeat the previous step for the other two cable wires. Grounding the Switch Chassis Before installing DC power supply units in your switch, perform these steps: 1 Verify that the DC circuit is de-energized. 2 Identify the grounding lug on the rear of the switch.
Installing Your Extreme Networks Switch Connecting the Ground Wire to a 750 W DC Power Supply Follow these steps to connect the ground wire to a 750 W DC power supply. Warning Be sure to connect the chassis ground wire before you connect any power cables. Warning Be sure to disconnect the ground wire after you disconnect all power cables. 1 Verify that the DC circuit is de-energized.
Installing Your Extreme Networks Switch 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 Verify that the DC circuit is de-energized.
Installing Your Extreme Networks Switch Leave the ESD strap permanently connected to the rack, so that the strap is always available when you need to handle ESD-sensitive components. 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.
Installing Your Extreme Networks Switch To prepare the cable wires for the 1100 W DC power supply unit, follow these steps: 1 Strip 0.4 inch (10 mm) of insulation from one end of each cable wire. 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.
Installing Your Extreme Networks Switch 5 Carefully slide the power supply all the way into the power supply bay. See Figure 157. Figure 157: 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. 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 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 158). Figure 158: 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.
Installing Your Extreme Networks Switch 3 Verify that the ground wire is attached to the power supply. See Figure 158 on page 209. 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).
Installing Your Extreme Networks Switch 6 Insert the connector into the slot on the power supply. See Figure 160. Figure 160: 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. Leave the ESD strap permanently connected to the rack, so that the strap is always available when you need to handle ESD-sensitive components.
Installing Your Extreme Networks Switch 750 W AC PSU Part number 10931. For PoE switches. Compatible with the EPS-C2 external power supply. For installation instructions, see Install a 300 W or 750 W Internal AC Power Supply on page 212. 770 W AC PSU Part numbers 10960 and 10961. Compatible with X690 and X870 series switches. For installation instructions, see Installing a 350 W, 715 W, 770 W, 1100 W, or 2000 W Internal AC Power Supply on page 218.
Installing Your Extreme Networks Switch Figure 162: Removing a Blank Panel (750 W Power Supply Unit) 2 Verify that the power supply is right side up. 3 Verify that the power supply's airflow direction (front-to-back or back-to-front) is compatible with the switch. 4 Carefully slide the power supply all the way into the power supply bay (see the following figures).
Installing Your Extreme Networks Switch Figure 164: 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 Your Extreme Networks Switch a If necessary, slide the plastic cord retainer farther away from the back of the switch (see Figure 165). Figure 165: Moving the Power Cord Retainer b Connect the AC power cord to the input connector (see Figure 166).
Installing Your Extreme Networks Switch c Open the clip and slip it over the barrel of the connector (see Figure 167). Figure 167: 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. To install a second power supply, repeat step 1 on page 212 through step 7.
Installing Your Extreme Networks Switch When installing an AC power supply, be sure to observe the following precautions: Warning To prevent an electrical hazard, make sure that the AC power cord is not connected to the power supply before you install the power supply in the power supply bay. Caution Make sure the AC power supply circuit is not overloaded. Use proper overcurrent protection, such as a circuit breaker, to prevent overcurrent conditions.
Installing Your Extreme Networks Switch 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. Unoccupied bays must always be covered to maintain proper system ventilation and EMI levels. 7 Connect the AC power cord to the input connector on the power supply.
Installing Your Extreme Networks Switch 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 power cord to the power supply.
Installing Your Extreme Networks Switch 4 When power is connected, verify that the PSU LED and RPS LED (if applicable) turns green. When both LEDs have turned green, follow the instructions in Connecting Network Interface Cables on page 220. If the PSU and RPS LEDs do not turn green, see the Switch LEDs topic for your switch model (in the ExtremeSwitching Switches on page 10 section) for troubleshooting information.
Installing Your Extreme Networks Switch Connecting a Switch to the Management Console Connect each switch to a central console to enable direct local management of the switch. Each switch should be connected to a management console – a terminal or PC with terminal-emulation software.
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 Respond to the screen prompts to configure the level of security you need.
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. 2 Enter the serial number of the switch.
7 Installing External Power Supplies Safety Considerations for Installing Power Supplies Pre-installation Requirements Installing an EPS-C2 Power Supply Installing an RPS-150XT Redundant Power Supply Installing an RPS-500p Redundant Power Supply Installing an STK-RPS-150PS Redundant Power Supply Installing an STK-RPS-1005PS Redundant Power Supply Installing a VX-RPS-1000 Redundant Power Supply Read the information in the following sections thoroughly before you attempt to install or remove an external power
Installing External Power Supplies Caution Before installing or removing any components of the system, or before carrying out any maintenance procedures, read the safety information provided in Safety and Regulatory Information on page 396. Not following these precautions can result in equipment damage or shock. Caution Be sure that proper ESD controls are in use before switch maintenance is performed.
Installing External Power Supplies 2 3 4 5 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 Connect AC power cords to the internal power supplies of the EPS-C2 chassis. Then plug each cord into an AC power source.
Installing External Power Supplies 3 Attach the mounting brackets as follows: a Place a mounting bracket over the mounting holes on one side of the EPS-C2 (see Figure 172). b Insert the screws and fully tighten them using a screwdriver. Figure 172: 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 173.
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. The installation sequence does not affect the performance of the power supply units, but empty slots must be covered at all times.
Installing External Power Supplies 4 Push the power supply in until the latch snaps into place. Caution Do not slam the power supply into the chassis. Figure 175: 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. Repeat the procedure to install each additional power supply.
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 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 178. Be sure that the side of the connector marked TOP is facing up. Figure 178: Installing the Redundant Power Cord Note The EPS-C2 2x9 connector, shown in the figure to the left of where the cable is connected, is used only with older switch models that are not compatible with ExtremeXOS version 21.
Installing External Power Supplies 1 If necessary, slide the plastic cord retainer farther away from the back of the power supply. See Figure 179. Figure 179: Moving the Power Cord Retainer on the 750 W AC Power Supply 2 Connect the AC power cord to the input connector.
Installing External Power Supplies 3 Open the clip and slip it over the barrel of the connector. Figure 181: Attaching the Power Cord Retainer on the 750 W AC Power Supply 4 Snap the clip firmly around the connector. 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.
Installing External Power Supplies Unpack the power supply as follows: 1 Remove the packing material protecting the power supply. 2 Perform a visual inspection of the power supply for any signs of physical damage. Contact Extreme Networks if there are any signs of damage. Installation Requirements The installation site must be within reach of the network cabling and meet the following requirements: • • • Appropriate grounded power receptacles must be located within six feet of the site.
Installing External Power Supplies 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 182. Figure 182: Securing the Three-slot Modular Shelf to a Rack 2 Slide the power supply into an empty bay in the shelf. See Figure 183. Figure 183: Installing an RPS-150XT Power Supply Unit in a Shelf 3 Tighten the captive screws to secure the power supply to the shelf.
Installing External Power Supplies Installing an RPS-150XT on a Flat Surface Caution Observe all ESD precautions when handling sensitive electronic equipment. When installing the RPS-150XT 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).
Installing External Power Supplies Figure 184: RPS Cable and AC Power Cord Connections for the RPS-150XT 1 = Switch 4 = Redundant Power Supply connector 2 = RPS cable 5 = AC power cord 3 = RPS-150XT 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.
Installing External Power Supplies Installing an RPS-500p Redundant Power Supply You can install the RPS-500p power supply on a flat surface or in a 19-inch rack. Caution Observe all ESD precautions when handling sensitive electronic equipment. Locate the RPS-500p within 6 ft (1.8 m) of its power source. Only qualified personnel should install redundant power supply (RPS) units.
Installing External Power Supplies Figure 185: 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 186. Figure 186: Fastening the RPS-500p to the Rack 1 = RPS-500p 3 = Mounting screws (4) 2 = Rails of 19-inch rack 3 Fasten the RPS-500p securely to the rack rails using four customer-supplied rack screws.
Installing External Power Supplies 4 If you are installing the RPS-500p in a stacked configuration, repeat this procedure for each power supply. 5 Connect the RPS-500p to its power source. See Connecting the RPS Cable and AC Power Cord to an RPS-500p on page 240. Installing an RPS-500p on a Flat Surface Caution Observe all ESD precautions when handling sensitive electronic equipment.
Installing External Power Supplies Figure 187: 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 Plug the AC power cord into the main AC power outlet.
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 242. 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 Figure 189: 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 243.
Installing External Power Supplies Guidelines for Rack Mount Installation The installation site must be within reach of the network cabling and meet the requirements listed below: • • • • Shelf placement must be close enough to connect the 6.6-foot (2-meter) AC power cords from the power supplies to the AC power source. One or two three-pronged power receptacles capable of delivering the current and voltage specified in STK-RPS-150PS and RPS Shelves Technical Specifications on page 387.
Installing External Power Supplies Figure 190: Fastening the STK-RPS-150CH2 to the Rack 1 = STK-RPS-150CH2 shelf 3 = Mounting screws 2 = Rails of rack Figure 191: Fastening the STK-RPS-150CH8 to the Rack 1 = STK-RPS-150CH8 shelf 3 = Mounting screws 2 = Rails of rack ExtremeSwitching and Summit Switches: Hardware Installation Guide 245
Installing External Power Supplies Connecting the RPS Cable and AC Power Cord Attention When performing this task, observe all of the precautions listen in Safety Considerations for Installing Power Supplies on page 224. The redundant power supply is connected to a switch using a 1-meter RPS cable. To connect a redundant power supply, proceed as follows: Note No change in switch configuration is necessary for this installation.
Installing External Power Supplies 2 Connect the AC power cord to the AC input power connector on the RPS shown in the figure above. 3 Plug the AC power cord into the main AC power outlet. The green Power LED on the front of the RPS will illuminate to indicate a successful connection. On certain switches, an LED indicator on the switch will show that a redundant power supply is now in operation.
Installing External Power Supplies 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 194. Figure 194: Securing the Three-slot Modular Shelf to a Rack 2 Slide the power supply into an empty bay in the shelf. See Figure 195. Figure 195: Installing an STK-RPS-1005PS Power Supply Unit in a Shelf 3 Tighten the captive screws to secure the power supply to the shelf.
Installing External Power Supplies 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).
Installing External Power Supplies Figure 196: 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 power outlet with ground connection for power supply 1 Connect
Installing External Power Supplies 3 4 5 6 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 External Power Supplies 2 Attach the other bracket to the other side of the power supply. Figure 197: 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 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.
Installing External Power Supplies 2 Attach the shelf to the rack, using the screws provided, as shown in Figure 198.
Installing External Power Supplies 3 Slide a power supply into an empty bay in the shelf, as shown in Figure 199. Figure 199: 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.
8 Installing Expansion Modules Installing a V400 Virtual Port Extender Installing a Half-Duplex to Full-Duplex Converter Installing a Versatile Interface Module or Clock Module in an X460-G2 Series Switch Install an SSD Module This chapter describes how to install expansion modules: • The V400 Virtual Port Extender • The Half-Duplex to Full-Duplex Converter • Versatile interface modules (VIM/VIM5s) • Solid-state Drive (SSD) modules Note Read the information in this chapter thoroughly before trying install o
Installing Expansion Modules 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.) See Installing Half-Duplex to Full-Duplex Converters in a 3-Slot Modular Shelf on page 256. 2 On a flat surface. See Mounting a Half-Duplex to Full-Duplex Converter on a Flat Surface on page 256. 3 On a wall.
Installing Expansion Modules 5 Connect the half-duplex ports (HD1 - HD4) to your half-duplex devices. Mounting a Half-Duplex to Full-Duplex Converter on a Wall Refer to Installing a Half-Duplex to Full-Duplex Converter on page 256 for installation options for the Half-Duplex to Full-Duplex Converter. To mount a Half-Duplex to Full-Duplex Converter unit on a wall, follow these steps: 1 Drill two holes in the wall, each 4 mm (0.16 in.) in diameter. The holes should be 10.5 cm (4.13 in.
Installing Expansion Modules 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 2 3 4 5 Attach a grounding wire to the grounding point on the side of the converter. Connect a DC power cable to the DC input socket on the same side of the converter. Connect the other end of the DC power cable to the power adapter. Connect the power adapter to an AC power source.
Installing Expansion Modules 3 Remove the cover plate from the VIM or clock module slot: a Remove the retaining screws at the top corners of the slot cover plate, and set the screws aside in a safe place. b Save the retaining screws to secure the new module in the switch. c Pull the cover plate away from the module slot. Figure 201: Removing a slot Cover Plate (VIM slot cover shown) 4 Remove the new VIM or clock module from its anti-static packaging.
Installing Expansion Modules • • ESD-preventive wrist strap #2 Phillips screwdriver Warning To prevent damage to the switch or VIM, the switch must be powered OFF when removing or installing SSD modules. To install an SSD module, follow these steps: 1 Attach the ESD wrist strap to your wrist and connect the metal end to an appropriate ground point on the rack. 2 Ensure that the switch is completely powered down. 3 Remove the cover plate from the SSD slot (#2 Phillips screwdriver required).
Installing Expansion Modules 5 Carefully slide the SSD module into the slot on the rear panel until it is firmly in place. Figure 205: Insert SSD Module 6 Secure the SSD module using the screws provided.
9 Replacing AC Power Supplies Replacing a Summit 300 W AC Power Supply Replacing a Summit 350 W or 715 W AC Power Supply Replacing a Summit 550 W AC Power Supply Replacing a 750 W AC Power Supply Replacing a Summit 770 W AC Power Supply Replacing a Summit 1100 W AC Power Supply Removing an RPS-150XT Redundant Power Supply Removing an RPS-500p Redundant Power Supply Removing an STK-RPS-150PS Redundant Power Supply Removing an STK-RPS-1005PS Redundant Power Supply Removing a VX-RPS-1000 Redundant Power Supply
Replacing AC Power Supplies 3 Push the latching tab toward the power supply handle and pull outward on the handle to disengage the power supply internal connectors. Figure 206: 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 AC Power Supplies 6 Carefully slide the power supply all the way into the power supply bay. See Figure 207 Figure 207: 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 Connect the other end of the power cord to an AC power outlet.
Replacing AC Power Supplies 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 208.
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 209: 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.
Replacing AC Power Supplies To replace a 550 W AC power supply: 1 Disconnect the AC power cord from the wall outlet and from the power supply. 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 210. Figure 210: Removing a 550 W AC Power Supply 4 Carefully slide the power supply the rest of the way out of the switch.
Replacing AC Power Supplies 6 Carefully slide the power supply all the way into the power supply bay. See Figure 211. Figure 211: Installing a 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. Warning Always be sure that the source outlet is properly grounded before plugging the AC power cord into the 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 212. Figure 212: 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. Wear thermal protective gloves when you remove a power supply from an operating switch.
Replacing AC Power Supplies 6 Carefully slide the power supply all the way into the power supply bay. See Figure 213. Figure 213: 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 AC Power Supplies 8 If necessary, slide the plastic cord retainer farther away from the back of the switch. See Figure 214. Figure 214: Moving the Power Cord Retainer 9 Connect the AC power cord to the input connector. See Figure 215.
Replacing AC Power Supplies 10 Open the clip and slip it over the barrel of the connector. See Figure 216. Figure 216: 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. Note The X690 and X870 models also can accommodate one or two 1100 W DC PSUs.
Replacing AC Power Supplies 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 217. Figure 217: 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.
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 a Summit 1100 W AC Power Supply The Summit 1100 W AC power supplies are compatible with the X450-G2 and X460-G2 PoE switches.
Replacing AC Power Supplies 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 219. Figure 219: Removing a Summit 1100 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 AC Power Supplies 6 Carefully slide the power supply all the way into the power supply bay. See Figure 220. Figure 220: Installing a Summit 1100 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. Warning Always be sure that the source outlet is properly grounded before plugging the AC power cord into the AC power supply.
Replacing AC Power Supplies 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 Disconnect the RPS cable from the Redundant Power Supply connector on the switch. 4 If the power supply is installed in a rack, remove it from the rack: a Holding the power supply securely, remove the captive screws that secure it to the STKRPS-1005CH3 shelf.
Replacing AC Power Supplies 4 Repeat steps 1 through 3 for each additional power supply you plan to remove. Removing an STK-RPS-1005PS Redundant Power Supply To remove an installed STK-RPS-1005PS that is attached to a switch, follow these steps. 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.
10 Replacing DC Power Supplies Replacing a Replacing a Replacing a Replacing a Summit 300 W DC Power Supply Summit 550 W DC Power Supply 750 W Internal DC Power Supply Summit 1100 W DC Power Supply 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. In a switch with a redundant power configuration, you can replace one DC power supply without powering down the switch.
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. See Figure 221. Figure 221: Removing a Summit 300 W DC Power Supply (Front-to-Back Model 10933 Shown) 5 Carefully slide the power supply the rest of the way out of the switch.
Replacing DC Power Supplies 2 Carefully slide the power supply all the way into the power supply bay. See Figure 222. Figure 222: Installing a Summit 300 W DC Power Supply (Front-to-Back Model 10933 Shown) 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 281.
Replacing DC Power Supplies Figure 223: Connecting the Ground Wire (Front-to-Back Model 10933 Shown) 1 = Grounding point 2 = Ground wire 3 Insert an M3.5 screw (provided) through the ring terminal on the ground and into the grounding point on the power supply. 4 Tighten the screw to 1.4 N m (12.6 in‑lb). 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.
Replacing DC Power Supplies 5 Connect the DC power input cables as follows: a On each terminal, loosen the screw enough to allow the spade terminal to slide underneath the captive square washer. b Slide the spade terminal of the negative wire (–24 V) under the captive square washer on the negative terminal (labeled –24 V).
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 224. Figure 224: 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 225.
Replacing DC Power Supplies 6 Slide the cover into place over the terminal block. 7 Energize the DC circuit. 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.
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 226. Figure 226: 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 227.
Replacing DC Power Supplies 6 Slide the cover into place over the terminal block. 7 Energize the DC circuit. Replacing a Summit 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.
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 228. Figure 228: Removing a Summit 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 2 Carefully slide the power supply all the way into the power supply bay. See Figure 229. Figure 229: Installing a 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 550 W DC Power Supply on page 289.
Replacing DC Power Supplies Figure 230: Connecting the Ground Wire 1 = Grounding point 2 = Ground wire ExtremeSwitching and Summit Switches: Hardware Installation Guide 290
Replacing DC Power Supplies 4 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 (see Figure 231). 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). Figure 231: 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.
Replacing DC Power Supplies 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. See Connecting the Ground Wire to a 550 W DC Power Supply on page 289.
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 +). Figure 232: 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 233.
Replacing DC Power Supplies 5 Snap the cover into place over the terminal block. 6 Energize the DC circuit. 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 295. Bear in mind that you cannot combine power supplies of different wattages in the same switch.
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 234: 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. Note Unoccupied power supply bays must always be covered to maintain proper system ventilation and EMI levels.
Replacing DC Power Supplies 3 Carefully slide the power supply all the way into the power supply bay. Figure 235: 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 296.
Replacing DC Power Supplies 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 236: 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 the other end of the wire to a known reliable earth ground point at your site. 6 Connect the power supply to the DC power source.
Replacing DC Power Supplies 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. See Connect the Ground Wire to an 750 W DC Power Supply on page 296. 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.
Replacing DC Power Supplies 6 Insert the connector into the slot on the power supply. Figure 238: 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.
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 Slide the wires out from under the captive washers.
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.
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.
Replacing DC Power Supplies 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.
Replacing DC Power Supplies 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 Tighten the screw on the top of the positive terminal connector to between 4.4 in‑lb (0.50 N m) and 7.1 in‑lb (0.8 N m). See Figure 242.
Replacing DC Power Supplies 6 Insert the connector into the slot on the power supply. See Figure 243. Figure 243: 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.
11 Replacing Fan Modules Pre-Installation Requirements Airflow Direction Requirements Replacing a Fan Module 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 Fan Modules 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 244. 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.
12 Removing and Replacing Expansion Modules Removing or Replacing a V400 Virtual Port Extender Removing or Replacing a Half-Duplex to Full-Duplex Converter Replacing a Versatile Interface Module, Solid-state Drive, or Clock Module in an X460G2 Series or X465 Series Switch This chapter describes how to replace the following equipment: • • • Removing or Replacing a V400 Virtual Port Extender on page 308 Removing or Replacing a Half-Duplex to Full-Duplex Converter on page 308 Replacing a Versatile Interface
Removing and Replacing Expansion Modules 3 Disconnect the converter to its power adapter. a Disconnect the power adapter from its AC power source. b Disconnect the DC power cable from the power adapter and from the DC input socket on the side of the converter. c Remove the grounding wire from the converter. 4 If the converter is attached to a 3-slot modular shelf, loosen the cable ties and remove it from the shelf.
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.
13 Removing Switches from Service Removing an AC Power Supply Removing a DC Power Supply Removing a Switch from a Rack 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 311. • Disconnect and remove the switch's removable DC power supply. See Removing a DC Power Supply on page 312.
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 249: 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 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 250: 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. See Removing an AC Power Supply on page 311 or Removing a DC Power Supply on page 312.
Removing Switches from Service Figure 251: Removing a Front-Mounted Switch from a Two-Post Rack Figure 252: 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.
A Technical Specifications ExtremeSwitching X435 Series Switches Technical Specifications ExtremeSwitching X440-G2 Series Switches Technical Specifications ExtremeSwitching X450-G2 Series Switches Technical Specifications ExtremeSwitching X460-G2 Series Switches Technical Specifications ExtremeSwitching X590 Series Switches Technical Specifications ExtremeSwitching X620 Series Switches Technical Specifications Summit X670-G2 Series Switches Technical Specifications ExtremeSwitching X690 Series Switches Tech
Technical Specifications • • • X435-8P-2T-W switch X435-24T-4S switch X435-24P-4S switch Table 88: X435 Unpackaged Dimensions X435-8T-4S switch X435-8P-4S switch Height: 1.71 inches (4.34 cm) Width: 12.6 inches (32.0 cm) Length: 7.9 inches (20.06 cm) X435-8P-2T-W switch Height: 1.73 inches (4.39 cm) Width: 8.2 inches (20.82 cm) Length: 10.1 inches (25.65 cm) X435-24T-4S switch X435-24P-4S switch Height: 1.73 inches (4.39 cm) Width: 17.4 inches (44.19 cm) Length: 10.0 inches (25.
Technical Specifications Power Options Table 92: X435 Power Supply Options Switch Model Nominal input ratings X435-8T-4S switch 100 to 240 V , 50-60 Hz, 0.7 A X435-8P-4S switch 100 to 240 V , 50-60 Hz, 3 A X435-8P-2T-W switch 802.3bt PD input power 46-57VDC 1.8AX2: • PoE ports load to 0W, 25W, or 45W for 1 input • PoE ports load to 25W, 65W, or 100W for 2 inputs X435-24T-4S switch 100 to 240 V , 50-60 Hz, 0.
Technical Specifications Table 95: X435-8P-2T-W PoE Power Budget (continued) Source Wattage (P9 + P10) Output (W) 30+60 45W 60+60 65W 90+60 85W 0+90 45W 30+90 65W 60+90 85W 90+90 100W Table 96: 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 97: Safety Standards North American Safety of ITE UL 60950-1 2nd Ed., A2:2014 (US) CSA 22.2 No. 60950-1-07 2nd Ed.
Technical Specifications Table 98: EMI/EMC Standards North America EMC for ITE FCC CFR 47 part 15 Class A (USA) ICES-003 Class A (Canada) European EMC standards EN 55032: 2015, Class A EN 55024:1998+A1:2001+A2:2003 EN 55035:2017 (Multimedia Equipment Immunity) Class A includes IEC 61000-4-2, 3, 4, 5, 6, 11 EN 61000-3-2: 2006+A2:2009 (Harmonics) EN 61000-3-3:2008 (Flicker) ETSI EN 300 386: v1.4.
Technical Specifications Table 101: 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 1.5G Operating conditions Temperature range: 0°C to 40°C (32°F to 104°F) up to 3000 m (9,842 ft.
Technical Specifications Physical Dimensions Table 102: Physical Dimensions (Unpackaged) X440-G2-12t-10GE4 X440-G2-12p-10GE4 X440-G2-12t8fx-GE4 Height: 1.73 inches (4.4 cm) Width: 12.01 inches (30.51 cm) Length: 10.28 inches (26.11 cm) X440-G2-24t-10GE4 X440-G2-24p-10GE4 X440-G2-24t-10GE4-DC X440-G2-24x-10GE4 X440-G2-24fx-GE4 X440-G2-24t-GE4 Height: 1.73 inches (4.4 cm) Width: 17.38 inches (44.15 cm) Length: 10.01 inches (25.43 cm) X440-G2-48t-10GE4 X440-G2-48p-10GE4 X440-G2-48t-10GE4-DC Height: 1.
Technical Specifications Physical Dimensions (Packaged) Table 104: Physical Dimensions (Packaged) X440-G2-12t-10GE4 X440-G2-12p-10GE4 X440-G2-12t8fx-GE4 Height: 6.07 inches (15.42 cm) Width:14.78 inches (37.54 cm) Length: 17.53 inches (44.53 cm) X440-G2-24t-10GE4 X440-G2-24p-10GE4 X440-G2-24t-10GE4-DC X440-G2-24x-10GE4 X440-G2-24fx-GE4 X440-G2-24t-GE4 Height: 5.48 inches (13.92 cm) Width: 14.85 inches (37.72 cm) Length: 22.38 inches (56.
Technical Specifications Table 106: Fan and Acoustic Sound (continued) Bystander Sound Pressure 4 in dB(A) Declared Sound Power (LWAd) 4 in bels X440-G2-24t-10GE4 28.1 4.3 X440-G2-24p-10GE4 39.4 5.5 X440-G2-24x-10GE4 26.8 4.0 X440-G2-48t-10GE4 37.9 5.4 X440-G2-48p-10GE4 48.7 6.4 X440-G2-24t-10GE4-DC 28.1 4.3 X440-G2-48t-10GE4-DC 37.9 5.4 X440-G2-12t8fx-GE4 23.3 4.0 X440-G2-24fx-GE4 24.7 3.9 X440-G2-24t-GE4 28.1 4.
Technical Specifications Table 107: Power Specifications (continued) Minimum 5 Heat Dissipation (BTU/hr) Minimum 5 Power Consumption (Watts) Maximum 5 Heat Dissipation (BTU/hr) Maximum 5 Power Consumption (Watts) X440-G2-12t8fx-GE4 108 32 159 47 X440-G2-24t-GE4 76 22 130 38 The following power specifications pertain to all X440-G2 switches, both PoE and non-PoE.
Technical Specifications CPU, Memory Table 110: CPU, Memory CPU/Memory 64-bit MIPS processor, 1 GHz clock, single core 1 GB ECC DDR3 DRAM 4 GB eMMC Flash 1.5 MB packet buffer Environmental Data Table 111: 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.
Technical Specifications Table 113: EMI/EMC Standards North America EMC for ITE FCC CFR 47 part 15 Class A (USA) ICES-003 Class A (Canada) European EMC standards EN 55022:2006+A1:2007 Class A EN 55024:A2-2003 Class A includes IEC 61000-4-2, 3, 4, 5, 6, 11 EN 61000-3-2,8-2006 (Harmonics) EN 61000-3-3:2008 (Flicker) ETSI EN 300 386 v1.4.1, 2008-04 (EMC Telecommunications) 2004/108/EC EMC Directive International EMC certifications CISPR 22: 2006 Ed 5.
Technical Specifications • • • • X450-G2-24p-GE4 X450-G2-24p-10GE4 X450-G2-48p-GE4 X450-G2-48p-10GE4 Table 116: 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 117: X450-G2 Unpackaged Weight X450-G2-24t-GE4 X450-G2-24t-10GE4 13.71 lb (6.22 kg) X450-G2-48t-GE4 X450-G2-48t-10GE4 14.22 lb (6.
Technical Specifications Table 120: 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 64.9 dB(A), 50°C 6.1 bels, 0°C to 39°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 64.8 dB(A), 50°C 6.1 bels, 0°C to 39°C 7.
Technical Specifications Power Options Table 122: 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.
Technical Specifications Table 124: 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 ports @ 15.
Technical Specifications Table 127: EMI/EMC Standards North America EMC for ITE FCC CFR 47 part 15 Class A (USA) ICES-003 Class A (Canada) European EMC standards EN 55022:2006+A1:2007 Class A EN 55024:1998+A1:2001+A2:2003 Class A includes IEC 61000-4-2, 3, 4, 5, 6, 11 EN 61000-3-2: 2006+A2:2009 (Harmonics) EN 61000-3-3:2008 (Flicker) ETSI EN 300 386: v1.4.1 (2008-04) (EMC Telecommunications) 2004/108/EC EMC Directive International EMC certifications CISPR 22: 2008 (Ed 6.
Technical Specifications Table 130: 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 Table 131: 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 (43.0 cm) X460-G2-24p-GE4 X460-G2-24p-10GE4 X460-G2-48p-GE4 X460-G2-48p-10GE4 X460-G2-24p-24hp-10GE4 X460-G2-16mp-32p-10GE4 Height: 1.73 inches (4.4 cm) Width: 17.38 inches (44.1 cm) Length: 19.11 inches (48.
Technical Specifications Table 134: 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 22.4 lb (10.2 kg) X460-G2-24t-24ht-10GE4 18.52 lb (8.40 kg) X460-G2-24p-24hp-10GE4 20.50 lb (9.30 kg) X460-G2-16mp-32p-10GE4 20.94 lb (9.
Technical Specifications Table 136: Fan and Acoustic Noise 10 11 Switch Model Bystander Sound Pressure Declared Sound Power (LWAd) X460-G2-24t-GE4 X460-G2-24t-10GE4 Dual 300 W AC or DC power supply with front-to-back (FB) airflow 49.1 dB(A), 0°C to 45°C 54.9 dB(A), 50°C 6.0 bels, 0°C to 45°C 6.6 bels, 50°C X460-G2-24t-GE4 X460-G2-24t-10GE4 Dual 300 W AC or DC power supply with back-to-front (BF) airflow 48.9 dB(A), 0°C to 35°C 59.5 dB(A), 45°C 65.5 dB(A), 50°C 5.9 bels, 0°C to 35°C 7.
Technical Specifications Table 136: Fan and Acoustic Noise (continued) Switch Model Bystander Sound Pressure Declared Sound Power (LWAd) X460-G2-48p-GE4 X460-G2-48p-10GE4 X460-G2-24p-24hp-10GE4 X460-G2-16mp-32p-10GE4 Dual 715 W or 1100 W AC power supply with front-toback (FB) airflow 52.2 dB(A), 0°C to 45°C 64.3 dB(A), 50°C 6.9 bels, 0°C to 45°C 7.
Technical Specifications Power Options Table 138: 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.
Technical Specifications Table 138: X460-G2 Power Supply Options (continued) Switch Model Power Supply 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. 10942 1100 W AC PS BF (back to front), Model PSSF112102A 100-127 V 200-240 V 50/60 Hz, 10.5A/5.0 A max per PS X460-G2-24p-24hp-10GE4 X460-G2-48p-GE4 X460-G2-48p-10GE4 1100 W AC power supply: Part no. 10941 1100 W AC PS FB (front to back), Model PSSF112101A Part no.
Technical Specifications Table 140: X460-G2 PoE Power Budget PSU Configuration X460-G2-24p-GE4 X460-G2-24p-10GE4 X460-G2-48p-GE4 X460-G2-48p-10GE4 X460G2-24p-24hp-10GE4 X460G2-16mp-32p-10GE4 1 PSU of 350 W 168 W 5 ports @ 30 W 10 ports @ 15.4 W 168 W 5 ports @ 30 W 10 ports @ 15.4 W 168 W 5 ports @ 30 W 10 ports @ 15.4 W 118 W 3 ports @ 30 W 7 ports @ 15.4 W 1 PSU of 715 W 500 W 16 ports @ 30 W 24 ports @ 15.4 W 500 W 16 ports @ 30 W 32 ports @ 15.4 W 500 W 16 ports @ 30 W 32 ports @ 15.
Technical Specifications Standards and Environmental Data Table 142: 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 1040.10 (US Laser Safety) CDRH Letter of Approval (US FDA Approval) European Safety of ITE IEC 60950-1:2005 2nd+A1:2009+A2:2013 IEC 60950-1:2006+A11+A1+A12+A2 EN 60825-1:2007 (Lasers Safety) International Safety of ITE CB Report & Certificate per IEC 60950-1:2005 2nd Ed.
Technical Specifications Table 145: 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 X460-G2-16mp-32p-10GE4) IEEE 802.3at PoE Plus IEEE 802.3az (EEE) Table 146: 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 Table 149: 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 (58.8 cm) Table 150: X590 Packaged Weight X590-24t-1q-2c 20.5 lb (9.3 kg) X590-24x-1q-2c 19.5 lb (8.85 kg) Fan and Acoustic Noise Table 151: Fan and Acoustic Noise Switch Model Bystander Sound Pressure (at 25°C) Declared Sound Power (at 25°C) X590-24t-1q-2c (part no. 16791) FB airflow 54.7 db(A) up to 25°C 61.9 db(A) up to 35°C 79.
Technical Specifications Table 153: Power Specifications Switch Model X590-24t-1q-2c X590-24x-1q-2c AC Input: 100-127 VAC, 2.5 A max. per PSU, 50/60 Hz AC Input: 200-240 VAC, 1.25 A max. per PSU, 50/60 Hz DC Input: -48 to -60 VDC, 5.0 A max. per PSU Table 154: Power and Heat Dissipation Minimum 12 Heat Minimum 12 Power Dissipation (1 PSU) Consumption Maximum 12 Heat Dissipation (2 PSUs) Maximum 12 Power Consumption X590-24t-1q-2c-AC 310.97 BTU/hr 91.14 W 792.27 BTU/hr 232.
Technical Specifications Table 156: EMI/EMC Standards North America EMC for ITE FCC 47 CFR part 15 Class A (USA) ICES-003 Class A (Canada) European EMC standards EN 55032:2015 Class A EN 55024:2010 EN 61000-3-2,2014 (Harmonics) EN 61000-3-3,2013 (Flicker) 2014/30/EU EMC Directive EN 300 386: v1.6.
Technical Specifications Table 159: Environmental Data (continued) Operating conditions Temperature range: 0°C to 45°C (32°F to 113°F) Humidity: 5% to 95% relative humidity, non-condensing Altitude: 0 to 3,000 meters (9,850 feet) Operational shock (half sine): 30 m/s2 (3 G), 11 ms, 60 shocks Operational random vibration: 3 to 500 Hz at 1.
Technical Specifications Packaged Dimensions Table 162: 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 163: Packaged Weight X620-8t-2x 9.41 lb (4.32 kg) X620-10x 9.04 lb (4.15 kg) X620-16t 17.79 lb (8.16 kg) X620-16x 16.91 lb (7.
Technical Specifications Table 165: Acoustic Sound (continued) Bystander Sound Pressure Declared Sound Power X620-16t (back-front airflow) 46.9 db(A) up to 30°C 65.2 db(A) at 50°C (max) 6.2 bels up to 30°C 8.1 bels at 50°C (max) X620-16x (front-back airflow) 47.0 db(A) up to 40°C 65.7 db(A) at 50°C (max) 6.1 bels up to 40°C 8.0 bels at 50°C (max) X620-16x (back-front airflow) 46.9 db(A) up to 40°C 64.8 db(A) at 50°C (max) 6.1 bels up to 40°C 8.
Technical Specifications CPU, Memory Table 168: CPU, Memory CPU/Memory 1 GHz CPU 1 GB DDR3 ECC memory 4 GB eMMC Flash memory Environmental Data Table 169: 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.
Technical Specifications EMI/EMC Standards Table 171: EMI/EMC Standards North America EMC for ITE FCC CFR 47 part 15 Class A (USA) ICES-003 Class A (Canada) European EMC standards EN 55022:2006+A1:2007 Class A EN 55024:A2-2003 Class A includes IEC 61000-4-2, 3, 4, 5, 6, 11 EN 61000-3-2,8-2006 (Harmonics) EN 61000-3-3:2008 (Flicker) ETSI EN 300 386 v1.4.1, 2008-04 (EMC Telecommunications) 2014/30/EUC EMC Directive International EMC certifications CISPR 22: 2006 Ed 5.
Technical Specifications • • X670-G2-48x-4q X670-G2-72x Table 174: X670-G2 Unpackaged Dimensions X670-G2-48x-4q X670-G2-72x Height: 1.73 inches (4.4 cm) Width: 17.38 inches (44.1 cm) Length: 19.20 inches (48.7 cm) Table 175: X670-G2 Unpackaged Weight X670-G2-48x-4q 14.7 lb (6.7 kg) X670-G2-72x 15.42 lb (7.0 kg) Table 176: X670-G2 Packaged Dimensions X670-G2-48x-4q X670-G2-72x Height: 13.99 inches (35.5 cm) Width: 24.23 inches (61.5 cm) Length: 27.58 inches (70.
Technical Specifications Table 178: Fan and Acoustic Noise (continued) Switch Model Bystander Sound Pressure Declared Sound Power (LWAd) X670-G2-72x Dual 550 W AC power supply with front-to-back (FB) airflow 58.9 dB(A), 0°C to 35°C 62.5 dB(A), 45°C 7.3 bels, 0°C to 35°C 7.6 bels, 45°C X670-G2-72x Dual 550 W DC power supply with front-to-back (FB) airflow 58.5 dB(A), 0°C to 35°C 62.4 dB(A), 45°C 7.3 bels, 0°C to 35°C 7.
Technical Specifications Table 180: Power Consumption Switch Model Minimum Heat Dissipation Minimum Power Consumption Maximum Heat Dissipation Maximum Power Consumption X670-G2-48x-4q 325 BTU/hr 95 W 768 BTU/hr 225 W X670-G2-72x 325 BTU/hr 95 W 939 BTU/hr 275 W Table 181: CPU, Memory CPU/Memory 1 GHz 64-bit CPU 2 GB DDR3 ECC SDRA memory 4 GB eMMC Flash Memory 12 MB buffer, per chip Standards and Environmental Data Table 182: Safety Standards North American Safety of ITE UL 60950-1 1st Ed.
Technical Specifications Table 183: EMI/EMC Standards (continued) International EMC certifications CISPR 22: 2008 (Ed 6.
Technical Specifications Table 186: 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 Table 190: X690 Packaged Weight X690-48t-2q-4c 21.01 lb (9.5 kg) X690-48x-2q-4c 20.28 lb (9.2 kg) Fan and Acoustic Noise Table 191: Fan and Acoustic Noise Switch Model Bystander Sound Pressure (at 25°C) Declared Sound Power (at 25°C) X690-48t-2q-4c (front-back airflow) 76.3 db(A) 9.0 bels X690-48t-2q-4c (back-front airflow) 77.5 db(A) 9.0 bels X690-48x-2q-4c (front-back airflow) 76.8 db(A) 9.0 bels X690-48x-2q-4c (back-front airflow) 77.4 db(A) 9.
Technical Specifications Table 193: Power Specifications Switch Model X690-48t-2q-4c AC Input: 100-127 VAC, 4.0 A max. per PSU, 50/60 Hz AC Input: 200-240 VAC, 2.0 A max. per PSU, 50/60 Hz DC Input: -48 to 60 VDC, 8.0 A max. per PSU X690-48x-2q-4c AC Input: 100-127 VAC, 3.0 A max. per PSU, 50/60 Hz AC Input: 200-240 VAC, 1.5 A max. per PSU, 50/60 Hz DC Input: -48 to 60 VDC, 6.0 A max.
Technical Specifications Table 196: EMI/EMC Standards North America EMC for ITE FCC 47 CFR part 15 subpart B Class A (USA) ICES-003 (Canada) European EMC standards EN 55022:2006+A1:2007 Class A EN 55024:1998+A1:2001+A2:2003 Class A includes IEC 61000-4-2, 3, 4, 5, 6, 11 EN 61000-3-2: 2006+A2:2009 (Harmonics) EN 61000-3-3:2008 (Flicker) 2014/30/EU EMC Directive ETSI EN 300 386: v1.4.
Technical Specifications Table 199: 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 Table 202: X695 Packaged Dimensions X695-48Y-8C switch Height: 18.5 cm (7.28 in) Width: 60.0 cm (23.62 in) Length: 88.0 cm (34.65 in) Fan unit, front-to-back or back-to-front Height: 24.0 cm (9.45 in) Width: 20.6 cm (8.11 in) Length: 22.1 cm (8.70 in) Four-post rack mount kit (included with switch) Height: 7.0 cm (2.76 in) Width: 11.0 cm (4.33 in) Length: 84.0 cm (33.07 in) Two-post rack mount kit (ordered separately) Height: 24.0 cm (9.45 in) Width: 20.6 cm (8.
Technical Specifications Table 205: Fan Tray Speed Variation (continued) Description Operation Status Operation Speed Airflow Direction Tray 2 Fan 1 up high speed unknown* Tray 2 Fan 2 up medium speed unknown* Tray 3 Fan 1 up high speed unknown* Tray 3 Fan 2 up medium speed unknown* Tray 4 Fan 1 up high speed unknown* Tray 4 Fan 2 up medium speed unknown* Tray 5 Fan 1 up high speed unknown* Tray 5 Fan 2 up medium speed unknown* Tray 6 Fan 1 up high speed unknown* Tra
Technical Specifications Mean Time Between Failures (MTBF) Table 208: X695-48Y-8C MTBF Switch Mean Time Between Failures X695-48Y-8C-AC-F 389719 hrs @ 25°C X695-48Y-8C-AC-R 450269 hrs @ 25°C CPU, Memory Table 209: CPU, Memory 2.2 GHz 64-bit CPU 16 Gb memory, 128 Gb SSD 4GB eMMC Flash Memory 32 MB buffer, per chip Standards Table 210: 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.
Technical Specifications Table 211: EMI/EMC Standards North America EMC for ITE FCC 47 CFR part 15 subpart B Class A (USA) ICES-003 (Canada) European EMC standards EN 300 386 V2.1.
Technical Specifications Table 212: Telecom Standards EN/ETSI 300 386:2008 (EMC Telecommunications) EN/ETSI 300 019 (Environmental for Telecommunications) MEF9 and MEF14 certified for EPL, EVPL, and ELAN Table 213: 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 Environmental Data Table 214: 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.
Technical Specifications Table 215: Physical Dimensions Summit X770-32q switch Height: 1.73 inches (4.4 cm) Width: 17.6 inches (44.8 cm) Depth: 20.4 inches (51.9 cm) including the PSU and installed fan modules. Table 216: Weight Summit X770-32q switch 18.0 lb (8.2 kg) Summit X770 fan module 0.36 lb (0.16 kg) 550 W AC PSU 2.75 lb (1.2 kg) 550 W DC PSU 2.50 lb (1.1 kg) Table 217: Packaged Dimensions Summit X770-32q switch Height: 6.5 inches (16.5 cm) Width: 23.4 inches (59.3 cm) Depth: 26.
Technical Specifications Table 221: Summit X770-32q: Power for Each of the Two Installed DC Power Supplies Nominal input ratings 48 to 60 V , 5.0 A Input current 4.25 A @ 48 V 3.35 A @ 60 V Heat dissipation 210 W, 717 BTU/hr Power consumption 210 W, 717 BTU/hr (low-line) (high-line) Summit X770 Power Supply Unit (PSU) and Fan Tray Configurations Table 222: X770-32q PSU and Fan Tray Configurations Configuration No. Quantity PSU PSU Power Supply Part No.
Technical Specifications Table 222: X770-32q PSU and Fan Tray Configurations (continued) Configuration No. Quantity PSU PSU Power Supply Part No. Description Quantity Fan Tray Fan Tray Part No.
Technical Specifications Table 225: EMI/EMC Standards (continued) International EMC certifications CISPR 22: 2008 (Ed 6.
Technical Specifications Table 228: Environmental Data (continued) Storage & transportation conditions (packaged) Transportation temperature: -40°C to 70°C (-40°F to 158°F) Storage and transportation humidity: 10% to 95% relative humidity, non-condensing 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.
Technical Specifications Fan and Acoustic Noise Table 233: Fan and Acoustic Noise Switch Model Bystander Sound Pressure Declared Sound Power X870-32c X870-96x-8c (front-back airflow) 54.8 db(A) up to 25°C 57.5 db(A) up to 30°C 76.5 db(A) at 45°C (max) 7.0 bels up to 25°C 7.2 bels up to 30°C 9.2 bels at 45°C (max) X870-32c X870-96x-8c (back-front airflow) 54.9 db(A) up to 25°C 62.8 db(A) up to 30°C 76.4 db(A) at 45°C (max) 7.4 bels up to 25°C 7.8 bels up to 30°C 9.
Technical Specifications Standards and Environmental Data Table 236: 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. TUV-R GS EN 60825-1:2007 (Lasers Safety) 2006/95/EC Low Voltage Directive International Safety of ITE CB Report & Certificate per IEC 60950-1:2005 2nd Ed.
Technical Specifications Table 239: 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 240: 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 Table 241: 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 242: 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 (6.38 kg) Table 243: V400 Packaged Dimensions V400-24t-10GE2 Height: 4.
Technical Specifications Table 245: 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. • PoE ports load to 720 W for DC input only. • PoE ports load to 720 W for AC+DC input. V400-48t-10GE4 AC Input: 100-240 VAC, 50/60 Hz, 1.0 A max V400-48p-10GE4 AC Input: 100-240 VAC, 50/60 Hz, 12.0 - 6.0 A max DC RPS input: 54 VDC, 18.
Technical Specifications Table 247: Fan and Acoustic Sound (continued) Bystander Sound Pressure 18 in dB(A) Declared Sound Power (LWAd) 18 in bels 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.) Standards and Environmental Data Table 248: 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.
Technical Specifications • • 4 priority queues 192Kb packet buffer Table 250: Half-Duplex to Full-Duplex Converter Packaged Dimensions Height 2.69 cm (1.06 in) Width 12.9 cm (5.08 in) Depth 6.91 cm (2.72 in) Weight 200 g (0.
Technical Specifications Table 254: Safety Standards (continued) EMI/EMC Standards FCC CFR 47 part 15 Class A (USA) ICES-003 Class A (Canada) EN 55022: Class A EN 55024:A2 Class A includes IEC 61000-4-2, 3, 4, 5, 6, 11 EN 61000-3-2,8 (Harmonics) EN 61000-3-3 (Flicker) 2014/30/EU EMC Directive International EMC Certifications CISPR 22: Ed 5.
Technical Specifications Table 256: Power Specifications Voltage input range 85 to 264 V Nominal input ratings 100 to 240 V Nominal input current at full loads 4.2 A @ 90 V 1.7 A @ 230 V Line frequency range 47 to 63 Hz Maximum inrush current 30 A Output 12 V , 25 A max, 300 Watts 3.3 V , 3.
Technical Specifications Table 259: Power Specifications (continued) Maximum Input Amperages 9 A @ 40 V 7.5 A @ 48 V 5 A @ 72 V Inrush Current 82 A at 72 V Minimum wire size 14 AWG (1.5 mm2) copper stranded DC Output 12 V DC Output Power (W) 300 W peak , 25 A/3.3 V , 3.
Technical Specifications Table 262: AC Power Specifications (Models 10925 and 10927) (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 393. Power supply cord gauge 18 AWG (0.75 mm2) up to 6 feet or 2 meters or 16 AWG (1.
Technical Specifications Table 265: Physical Specifications Dimensions Height: 1.57 inches (4.0 cm) Width: 3.15 inches (8.0 cm) Depth: 9.5 inches (24.1 cm) Weight 2.25 lb (1 kg) Table 266: Power Specifications Voltage input range 85 to 264 V Nominal input ratings 100 to 240 V Nominal input current at full loads 10 A at 90 V (low-line) 3.7 A at 230 V (high-line) Line frequency range 47 to 63 Hz Maximum inrush current 35 A Output 12 V , 25 A max, 300 Watts 55 V , 8.18 A max, 450 Watts 3.
Technical Specifications Table 268: 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 (8.11 in) Table 269: 750 W Power Supplies: Unpackaged Weight 750 W power supply – AC front-to-back or back-to-front airflow 0.81 kg (1.
Technical Specifications Table 272: Power Specifications (AC Power Supplies) (continued) Power cord wall plug Refer to Power Cord Requirements for AC-Powered Switches and AC Power Supplies on page 393. Power supply cord gauge 18 AWG (0.75 mm2) up to 6 feet or 2 meters or 16 AWG (1.0 mm2) over 6 feet Efficiency Low Line: 88% at 50% load and 86% at 100% load High Line: 90% at 50% and 100% loads Table 273: Power Specifications (DC Power Supplies) Nominal input -48 to -60 VDC, 20.
Technical Specifications Table 276: Power Specifications Voltage input range 100-127/200-240 47 to 63Hz Nominal input ratings 12.5 A max at 115VAC and 6A max at 230VAC at Full 770 W load Maximum inrush current 45A at Max 264 VAC at 25C with cold start Output 54 V, 13.2 A max, 770 W Power supply input socket and cord IEC/EN 60320-1/C16 AC input receptacles Power cord wall plug Refer to Power Cord Requirements for AC-Powered Switches and AC Power Supplies on page 393.
Technical Specifications Table 280: Power Specifications AC input frequency range 47-63 Hz AC input voltage range 90-264 VAC AC input current 1.5 A maximum at 100 VAC 0.
Technical Specifications RPS-150XT Connector See Figure 253 and Table 285 on page 385 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.
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 286: 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.
Technical Specifications Figure 254: RPS-500p Connector Pin Locations Table 289: 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 150 watt DC power redundant power supply for use with an E
Technical Specifications STK-RPS-150PS Specifications Table 290: 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 291: 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.
Technical Specifications STK-RPS-150PS Connector Pin Locations Figure 255: STK-RPS-150PS Connector Pin Locations Table 295: 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 The following tables list the specifica
Technical Specifications Table 297: Power Specifications (continued) DC output -55 VDC, 15 A maximum +12.0 VDC, 0.1 A minimum, 15 A maximum Maximum output power 1005 W Table 298: Environmental Specifications Operating temperature 0°C to 50°C (32°F to 122°F) Storage temperature -40°C to 70°C (-40°F to 158°F) Operating relative humidity 10% to 90% non-condensing STK-RPS-1005PS Connector For pin location and function, refer to Figure 256 and Table 299 on page 391, respectively.
Technical Specifications Table 299: 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 return VX-RPS-1000 Redundant Power Supply Technical Specifications The following ta
Technical Specifications Table 303: VX-RPS-1000 Environmental Specifications Operating temperature 0°C to 45°C (32°F to 113°F) Storage temperature -40°C to 70°C (-40°F to 158°F) Operating relative humidity 5% to 90% non-condensing Table 304: VX-RPS-1000 Connector Pin Functions Pin Function Pin Function 1 12 V power 9 Power good of RPS 2 12 V power 10 Power supply present 3 12 V power 11 12 V current sharing 4 Ground 12 Ground 5 Ground 13 Spare pin 6 Spare pin 14 -55 V curre
Technical Specifications Table 306: 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 (6.37 lb) Power Cord Requirements for AC-Powered Switches and AC Power Supplies An AC power cord is not included with the AC power supply. Power cords used with AC-powered switches or AC power supplies must meet the following requirements: • The power cord must be agency-certified for the country of use.
Technical Specifications Figure 257: Null-Modem Cable Pinouts Figure 258 shows the pinouts for a 9-pin to 9-pin (PC-AT) null-modem serial cable. Figure 258: PC-AT Serial Null-modem Cable Pinouts Table 308 shows the pinouts for the RJ45 console port on the ExtremeSwitching switches.
Technical Specifications Table 308: RJ45 Console Port on Switch (continued) Function Pin Number Direction DSR (data set ready) 7 In RTS (request to send) 8 Out Table 309 shows the pinouts for an RJ45-to-DB-9 adapter.
B Safety and Regulatory Information Considerations Before Installing General Safety Precautions Maintenance Safety Fiber Optic Ports and Optical Safety Cable Routing for LAN Systems Installing Power Supply Units and Connecting Power Selecting Power Supply Cords Battery Notice Battery Warning - Taiwan EMC Warnings Japan (VCCI Class A) Korea EMC Statement Warning Read the following safety information thoroughly before installing Extreme Networks products.
Safety and Regulatory Information • 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. Establish at least 3 inches clearance on all sides for effective ventilation.
Safety and Regulatory Information • • • • • • • 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 EMC regulations. This system contains no customer serviceable components. Do not attempt to repair a chassis, power supply, module, or other component.
Safety and Regulatory Information • • • • • • Class 1 or Class 1M Laser Product EN60825-1:2007 2nd Ed.
Safety and Regulatory Information Installing Power Supply Units and Connecting Power For the ratings and power input requirements of each power supply unit, see Technical Specifications on page 315 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. When you install any power supply: • Do not use excessive force when you insert a power supply into the bay.
Safety and Regulatory Information • • • • • 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 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 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 189 connecting to source voltage 190 10934A DC power supply, see 10944 DC power supply 10944 DC power supply connecting ground wire 189 connecting to source voltage 190 1100 W AC power supply features 110 installing 218 replacing 274 1100 W DC power supply connecting ground wire 208 connecting to source voltage 209 features 111 installation 206 installing 207, 301–303 preparing cables 206 removing 300 replacing 299, 301–303 2000 W AC power supply i
Index alert, power supply 105, 108 alternate stacking ports 142, 144 X440-G2 series switches 151 X450-G2 series switches 152, 153 X460-G2 series switches 153–156 X590 series switches 157 X620 series switches 157 X670-G2 series switches 158, 159 X690 series switches 159 X770 series switches 160, 161 X870 series switches 162 alternate stacking ports 162 alternative configuration 167 amperage calculating for UPS 134 ANSI standards 135 automatic failover setting up 11 B back-to-front cooling 306 backup node d
Index DC power connecting to switch 190, 199, 203, 204, 209, 219 external power supplies 93 removing PSU 312 replaceable power supplies 104 DC power supply connecting ground wire 204 DC-I battery return configuration 135 DC-powered switches X440-G2-24t-10GE4-DC switch 23 X440-G2-48t-10GE4-DC switch 24 design standards 135 distances cables 129 documentation feedback 7 location 8, 9 downloading ExtremeXOS to switch 223 dual master condition 141 E Easy-Setup 148 election node role 148 priority 148 electric p
Index Half-Duplex to Full-Duplex Converter (continued) mounting on a shelf 256 mounting on a wall 257 removing 308 replacing 308 specifications 374, 375 hitless failover 148 humidity 124 I industry standards 135 initial switch login 221 installing 10933 DC power supply 189, 190 10944 DC power supply 189, 190 1100 W AC power supply 218 1100 W DC power supply 206, 301–303 1100 W power supply 207–209 2000 W AC power supply 218 300 W AC power supply 212 300 W DC power supply 186, 187, 280, 282, 285 550 W AC p
Index optional components (continued) installing 185 optional ports X460-G2 series 115 P partitioning of ports 12 X590 ports 58 X670-G2 ports 71 X690 ports 75 X770 ports 82 X870 ports 85 pinouts DB-9 console connector 393 null-modem cable 393 planning site 120 plenum-rated cable 127 port option cards types 113 VIM-2q 116 VIM-2ss 117 VIM-2t 117 VIM-2x 118 ports alternate stacking 142, 151–162 combination 11 console port settings 221 for stacked configurations 177 management 221 native stacking 137 partitio
Index R rack attaching switch 181 removing switch 313 rack specifications grounding 125 securing to floor 126 space requirements 125 radio frequency interference (RFI) patch panel installation 127 preventing 132 redundancy in a stack 138 redundant power supply (RPS) 3-slot modular shelf 392 EPS-C2 95, 383 RPS-150XT 98, 233, 234, 236, 276, 384, 385 RPS-500p 100, 238, 240, 277, 386 RPS-90 98, 383 STK-RPS-1005PS 102, 247, 249, 278, 389, 390 STK-RPS-150PS 101 tools for installing 225 VX-RPS-1000 103, 251, 252,
Index specifications (continued) 770 W AC power supply 382 EPS-C2 383 equipment racks 124 Half-Duplex to Full-Duplex Converter 374, 375 RPS-500p 386 STK-RPS-150PS power supply 387–389 V400 virtual port extender 371–374 X435 switch 315, 317, 318 X440-G2 switch 320–325 X450-G2 switch 326, 329, 330 X460-G2 switch 332, 337, 340 X590 switch 341–343 X620 switch 345–349 X670-G2 switch 349, 351, 352 X690 switch 354–356 X695 switch 358–361, 363 X770 switch 363–366 X870 switch 368–370 SSD module 115, 259 stack 146 s
Index switches attaching to cabinet 181 attaching to rack 181 connecting power 203, 219 initial login 221 installing 179 installing optional components 185 preparing to install 180 removing 311, 313 removing PSU 311, 312 safety information 180 T technical support contacting 8 temperature 122, 363 TM-CLK module 118 tools for installing equipment 1100 W DC power supply 206 300 W DC power supply 186 550 W DC power supply 195 750 W DC power supply 202 redundant power supply (RPS) 225 switches 180 top-of-rack
Index X440-G2 series switches (continued) specifications 320–325 stacking 151 X440-G2-12p-10GE4 switch 16 X440-G2-12t-10GE4 switch 15 X440-G2-12t8fx-GE4 switch 25 X440-G2-24fx-GE4 switch 26 X440-G2-24p-10GE4 switch 19 X440-G2-24t-10GE4 switch 17 X440-G2-24t-10GE4-DC switch 23 X440-G2-24t-GE4 switch 27 X440-G2-24x-10GE4 switch 18 X440-G2-48p-10GE4 switch 22 X440-G2-48t-10GE4 switch 20 X440-G2-48t-10GE4-DC switch 24 X450-G2 series switches 350 W AC power supply 218 715 W AC power supply 264 acoustic noise 32
Index X695 Series switches (continued) standards 361 X695 switches stacking 160 X770 series switches acoustic noise 368 airflow options 81 features 81 installing 550 W AC power supply 216 LEDs 83 power specifications 364 power supplies 378 power supply unit (PSU) 365 replacing AC power supply 266 specifications 363–366 stacking 160, 161 X770-32q switch 82 X870 series switches 1100 W DC power supply 111, 206, 301 750 W DC power supply 295 770 W AC power supply 110, 218, 382 acoustic noise 368 airflow option