ExtremeSwitching 5520 Series Hardware Installation Guide 9036817-00 Rev.
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Table of Contents Preface......................................................................................................................................................................................vii Audience.........................................................................................................................................................................vii Conventions.............................................................................................................
Table of Contents 5520-VIM-4X Versatile Interface Module.............................................................................................. 33 5520-VIM-4XE Versatile Interface Module........................................................................................... 34 5520-VIM-4YE Versatile Interface Module........................................................................................... 35 Site Preparation........................................................................
Table of Contents Attaching the Switch to a Rack or Cabinet.................................................................................................. 74 Installing Optional Components.........................................................................................................................76 Pluggable Transceiver Modules..................................................................................................................76 Optical Cables....................................
Table of Contents Versatile Interface Modules (VIM) Port LEDs............................................................................................. 123 5520-VIM Port LEDs in Default (SYS) Mode......................................................................................124 5520-VIM Port LEDs in SPD Mode..........................................................................................................124 Technical Specifications.........................................................
Preface Read the following topics to learn about: • • • The meanings of text formats used in this document. Where you can find additional information and help. How to reach us with questions and comments. Audience This guide is intended for use by network administrators responsible for installing and setting up network equipment.
Text Conventions Preface Table 1: Notes and warnings Icon Notice type Alerts you to... Tip Helpful tips and notices for using the product Note Useful information or instructions Important Important features or instructions Caution Risk of personal injury, system damage, or loss of data Warning Risk of severe personal injury Table 2: Text Convention Description screen displays This typeface indicates command syntax, or represents information as it is displayed on the screen.
Terminology Preface Table 3: Command syntax (continued) Convention Description x | y A vertical bar separates mutually exclusive elements. < > Nonprinting characters, such as passwords, are enclosed in angle brackets. ... Repeat the previous element, for example, member[member...]. \ In command examples, the backslash indicates a “soft” line break. When a backslash separates two lines of a command input, enter the entire command at the prompt without the backslash.
Subscribe to Product Announcements Preface Call GTAC For immediate support: (800) 998 2408 (toll-free in U.S. and Canada) or 1 (408) 579 2826. For the support phone number in your country, visit: www.extremenetworks.
ExtremeSwitching 5520 Series Overview 5520-24T Switch Features on page 13 5520-24W Switch Features on page 14 5520-24X Switch Features on page 15 5520-12MW-36W Switch Features on page 16 5520-48T Switch Features on page 17 5520-48W Switch Features on page 19 5520-48SE Switch Features on page 20 The ExtremeSwitching 5520 Series is a family of high-performance aggregation switches.
Cooling ExtremeSwitching 5520 Series Overview There is one Micro-B USB console port on the front panel. If the Micro-B USB console port is connected, it will be selected over the RJ45 console port. The Micro-B USB console port will disconnect when the switch is rebooted. You can re-connect the port if needed.
Stacking ExtremeSwitching 5520 Series Overview Stacking Each 5520 unit comes equipped with two 40GbE stacking ports, also referred to as Universal Ethernet ports. When running ExtremeEXOS, up to eight systems can be stacked using qualified QSFP28 and QSFP+ direct attach cables and optical transceivers located on the front panel of the switch. Standard 40 Gb Ethernet Optics and passive and active cables can be used in the QSFP28 ports for stacking 5520s together using SummitStack-V160.
ExtremeSwitching 5520 Series Overview 5520-24W Switch Features Figure 1: 5520-24T Front Panel 1 = 10/100/1000Mb ports 3 = Micro-B USB console port 2 = USB 1 port 4 = Stacking/QSFP28 ports 5 = VIM port (covered) The rear panel of the switch includes: • • • • 2 fan modules Grounding lug 1 Type-A USB port 2 power supply slots Figure 2: 5520-24T Rear Panel 1 = Fan modules 3 = Serial console port 5 = USB 2 port 2 = Grounding lug 4 = OOB management port 6 = Locator LED 7 = Power supply slots 5520
5520-24X Switch Features ExtremeSwitching 5520 Series Overview Figure 3: 5520-24W Front Panel 1 = 10/100/1000Mb ports 3 = Micro-B USB console port 2 = USB 1 port 4 = Stacking/QSFP28 ports 5 = VIM port (covered) The rear panel of the switch includes: • • • • 3 fan modules Grounding lug 1 Type-A USB port 2 power supply slots Figure 4: 5520-24W Rear Panel 1 = Fan modules 3 = Serial console port 5 = USB 2 port 2 = Grounding lug 4 = OOB management port 6 = Locator LED 7 = Power supply slots 5520
ExtremeSwitching 5520 Series Overview 5520-12MW-36W Switch Features Figure 5: 5520-24X Front Panel 1 = 1GB/10Gb SFP+ ports 3 = Micro-B USB console port 2 = USB 1 port 4 = Stacking/QSFP28 ports 5 = VIM port (covered) The rear panel of the switch includes: • • • • 2 fan modules Grounding lug 1 Type-A USB port 2 power supply slots Figure 6: 5520-24X Rear Panel 1 = Fan modules 3 = Serial console port 5 = USB 2 port 2 = Grounding lug 4 = OOB management port 6 = Locator LED 7 = Power supply slots
5520-48T Switch Features ExtremeSwitching 5520 Series Overview • • 1 Micro-B USB console port 2 Stacking (Universal Ethernet)/QSFP28 ports Figure 7: 5520-12MW-36W Front Panel 1 = 10/100/1000Mb ports 3 = Micro-B USB console port 5 = VIM port (covered) 2 = USB 1 port 4 = Stacking/QSFP28 ports 6 = 100Mb/1/2.
5520-48T Switch Features • • • ExtremeSwitching 5520 Series Overview 1 Type-A USB port 1 Micro-B USB console port 2 Stacking (Universal Ethernet)/QSFP28 ports Figure 9: 5520-48T Front Panel 1 = 10/100/1000Mb ports 3 = Micro-B USB console port 2 = USB 1 port 4 = Stacking/QSFP28 ports 5 = VIM port (covered) The rear panel of the switch includes: • • • • 3 fan modules Grounding lug 1 Type-A USB port 2 power supply slots Figure 10: 5520-48T Rear Panel 1 = Fan modules 3 = Serial console port 5 = US
ExtremeSwitching 5520 Series Overview 5520-48W Switch Features 5520-48W Switch Features The front panel of the 5520-48W switch includes: • 48 10/100/1000Mb full/half duplex MACsec capable ports with 802.3bt Type 4 PoE (90W) Note Half-duplex is not supported on these ports when operating at 1Gbps.
5520-48SE Switch Features ExtremeSwitching 5520 Series Overview 5520-48SE Switch Features The front panel of the 5520-48SE switch includes: • • • • • 48 100/1000BASE-X MACsec capable SFP ports 1 VIM slot 1 Type-A USB port 1 Micro-B USB console port 2 Stacking (Universal Ethernet)/QSFP28 ports Figure 13: 5520-48SE Front Panel 1 = 100/1000BASE-X MACsec capable SFP ports 3 = Micro-B USB console port 5 = VIM port (covered) 2 = USB 1 port 4 = Stacking/QSFP28 ports The rear panel of the switch includes:
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.
Power Supplies for Use with Your Switch 350 W AC Power Supplies on page 22 715 W AC Power Supplies on page 23 1100 W AC Power Supplies on page 23 2000 W AC Power Supply on page 23 Each 5520 Series switch runs with two replaceable internal power supply units that provide all of the power needed for the switch to operate. You can remove one power supply without interrupting the switch's operation. Power supplies are ordered separately.
715 W AC Power Supplies Power Supplies for Use with Your Switch 715 W AC Power Supplies The 715 W AC PSU-FB (models XN-ACPWR-715W-FB and 10951 with front-to-back ventilation airflow) are compatible with 5520-24W, 5520-12MW-36W, and 5520-48W switch models. The 715 W AC power supply has a keyed power inlet (C16) that requires a notched (C15) power cord.
2000 W AC Power Supply Power Supplies for Use with Your Switch The ExtremeSwitching 2000 W AC power supply has the status LEDs listed in the following table: Table 8: ExtremeSwitching 2000 W AC Power Supply LED Status Indications 24 IN_OK (Green) OUT_OK Description (Green or Red) 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.
Expansion Modules V300 Virtual Port Extender on page 25 V400 Virtual Port Extender on page 31 Versatile Interface Modules for the ExtremeSwitching 5520 Series Switches on page 32 Several different hardware accessories are available for expanding the capabilities of your Extreme Networks switch. Collectively, they are referred to as expansion modules. • Versatile interface modules (VIM) are installed in one dedicated slot in the front of the switch to provide a dedicated 10/25/40G high speed port.
V300-8P-2X Model Expansion Modules toward the upstream controlling bridge (an ExtremeXOS-based switch) for L2/L3 processing. This scheme, based on the IEEE 802.1BR specification, is known as extended edge switching.
V300-8T-2X Model Expansion Modules 5 = Console/Management port Figure 16: V300 Virtual Port Extender Rear Panel V300-8T-2X Model The Virtual Port Extender V300-8T-2X model offers the following features: • • • • • Eight 10/100/1000BASE-T half/full duplex ports Two 10Gb SFP+ ports One USB port One console/management port One DC input jack The V300-8T-2X model requires that ExtremeXOS (EXOS) version 30.6 (or later) be installed on the switch to which it is attached.
Expansion Modules V300-8P-2T-W Model V300-8P-2T-W Model The Virtual Port Extender V300-8P-2T-W model offers the following features: • • • • 8 10/100/1000BASE-T half duplex PoE+ ports 2 1000/BASE-T 802.3bt Type 4 ports PoE power Fanless The V300-8P-2T-W model requires that ExtremeXOS (EXOS) version 30.2.2 (or later) be installed on the switch to which it is attached. For more information about configuring EXOS for use with this equipment, see the ExtremeXOS 31.1 User Guide.
V300HT-8T-2X Model Expansion Modules The V300HT-8P-2X model is compatibile with the following power supplies: 40W AC PS FRU (Model XN-ACPWR-40W). • • Model XN-ACPWR-320W-HT - a 320W AC power supply high temperature Model 16807 - an IS AC-DC power supply with 240W output and DIN rail compatible Important The high temperature power supplies for the V300HT models require field wiring. Power supplies must be installed in accordance with local electrical codes by a licensed electrician.
Expansion Modules V300HT-8T-2X Model The V300HT-8T-2X model requires that ExtremeXOS (EXOS) version 30.6 (or later) be installed on the switch to which it is attached. For more information about configuring EXOS for use with this equipment, see the ExtremeXOS 31.1 User Guide.
V300 Virtual Port Extender LEDs Expansion Modules V300 Virtual Port Extender LEDs The V300 Virtual Port Extender front panel LEDs observe the following behavior: Table 10: V300 Virtual Port Extender LEDs Location LED Indicative Color Status Description LED Per device PWR LED (Top) Green Off Power off Solid Power on System LED (Bottom) LED Per RJ45 Port 1-8 (PSE) Link/Act (left) PoE (right) LED Per RJ45 Port 9-10 (PD) Link/Act (left) PoE (right) PoE model Amber Solid External PSU 2 fail (
Versatile Interface Modules for the ExtremeSwitching 5520 Series Switches Expansion Modules links or downstream cascade ports to other V400 units. The SFP+ ports are the only ones that can be used as uplink ports in a cascading configuration. The V400 Virtual Port Extender requires that ExtremeXOS (EXOS) version 22.5 (or later) be installed on the switch to which it is attached. For more information about configuring EXOS for use with this equipment, see the ExtremeXOS 31.1 User Guide.
5520-VIM-4X Versatile Interface Module Expansion Modules Figure 27: 5520-VIM Label 1 = 5520-VIM label Table 11: 5520-VIM Matrix 5520-VIM-4X 5520-VIM-4XE 5520-VIM-4YE Usable ports 4 4 4 Operational speeds 1Gbps & 10Gbps 1Gbps & 10Gbps 10Gbps & 25Gbps PHY present No Yes Yes 1000BASE-T & 10GBASE-T 10GBASE-T only Both 10GBASE-T only Mixed speeds 1Gbps & 10Gbps 1Gbps & 10Gbps Not supported1 1G Auto-negotiation Disabled Enabled 10G Auto-negotiation Disabled Disabled 25G Auto-negotia
5520-VIM-4XE Versatile Interface Module Expansion Modules Figure 28: 5520-VIM-4X Versatile Interface Module Table 12: Port Numbers for Ports on the 5520-VIM-4X Module 5520 Series 24-port models 5520 Series 48-port models VOSS (all models) 33-36 (EXOS) 57-60 on 48-port models (EXOS) VIM slot number=2 Interface names=2/1-2/4 5520-VIM-4XE Versatile Interface Module The 5520-VIM-4XE versatile interface module provides four 10-GbE (SFP+) ports, MACsec capable.
Expansion Modules 5520-VIM-4YE Versatile Interface Module 5520-VIM-4YE Versatile Interface Module The 5520-VIM-4YE versatile interface module provides four 25-GbE (SFP28) MACsec capable ports. Note In VOSS, you must use the sys vim-speed command to set the speed to 10G or 25G for 5520-VIM-4YE. The default is 25G. A reboot is not necessary after setting the speed. In EXOS, use the configure ports partition command with 4x25 or 4x10.
Site Preparation Planning Your Site on page 36 Operating Environment Requirements on page 37 Rack Specifications and Recommendations on page 40 Evaluating and Meeting Cable Requirements on page 41 Meeting Power Requirements on page 47 Following Applicable Industry Standards on page 50 By carefully planning your site, you can maximize the performance of your existing network and ensure that it is ready to migrate to future networking technologies.
Site Preparation Operating Environment Requirements After examining your physical site and verifying that all environment requirements are met, evaluate and compare your existing cable plant with the requirements of the Extreme Networks equipment to determine if you need to install new cables. 3. Meeting power requirements. To run your equipment safely, you must meet the specific power requirements for each switch and external power supply unit installed in the system.
Site Preparation Setting up the Wiring Closet Table 15: Authorities on Electrical Codes (continued) Organization Address Web Site URL National Electrical Manufacturing Association (NEMA) (USA only) Organization of electrical product manufacturers. Members develop consensus standards for cables, wiring, and electrical components. NEMA 1300 N. 17th Street Rosslyn, VA 22209 USA www.nema.
Controlling the Humidity Level Site Preparation Observe these additional thermal recommendations for the location where you plan to install your equipment: • Ensure that the ventilation in the wiring closet is adequate to maintain a temperature below 50°C (122°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.
Rack Specifications and Recommendations Site Preparation Rack Specifications and Recommendations Racks should conform to conventional standards. In the United States, use EIA Standard RS-310C: Racks, Panels, and Associated Equipment. In countries other than the United States, use IEC Standard 297. In addition, verify that your rack meets the basic mechanical, space, and earthquake requirements that are described in this section.
Securing the Rack Site Preparation Allow a minimum of 48 inches (122 cm) in front of the rack and 30 inches (76 cm) behind the rack. When using a relay (two-post) rack, provide a minimum of 24 inches (61 cm) of space behind the mounted equipment. Extra room on each side is optional. Warning Extreme Networks switches do not have a switch for turning power to the unit on and off. For systems using an AC power supply, power to the switch is disconnected by removing the wall plug from the electrical outlet.
Installing Cable Site Preparation Keeping accurate records helps you to: • • • • • Relocate devices easily. Make changes quickly. Isolate faults in the distribution system. Locate the opposite end of any cable. Know the types of network devices that your cabling infrastructure can support. Follow these guidelines when setting up a cable labeling system suitable for your installation: • • Identify cables by securely attaching labels to all cable ends.
Site Preparation Installing Cable • 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 32: 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.
Installing Cable Site Preparation Figure 33: Bend Radius for Fiber Optic Cable 1 = Minimum 5 cm (2 in) radius in 90° bend Cable Distances and Types Table 17 shows one example of cable media types and maximum distances that support reliable transmission in accordance with international standards (except where noted).
Site Preparation Installing Cable Table 17: Cable Distances and Types (continued) Standard Media Type MHz•km Rating Maximum Distance (Meters) 1000BASE-BX10 (1490nm optical window) (1310nm optical window) 10/125 µm single-mode fiber – 10,000 1000BASE-LX70 (1550nm optical window) 10/125 µm single-mode fiber – 70,000 10/100/1000BASE-T SFP (1 Gbps link) Category 5 and higher UTP cable – 100 (100 Mbps link) Category 5 and higher UTP cable – 150 (10 Mbps link) Category 5 and higher UTP cable
Site Preparation Using RJ45 Connector Jackets Table 18: Extreme Networks 100Gb Direct-Attach Cables (continued) Cable Type Part Number Length QSFP28-4xSFP28 (4x25Gb) Direct attach passive copper breakout 10421 1 meter 10423 3 meters 10424 5 meters 10444 20 meters QSFP28-4xSFP28 (4x25Gb) Active optical breakout cable Table 19: Extreme Networks 40Gb Direct-Attach Cables Cable Type Part Number Length QSFP+ to QSFP+ Direct attach cable AA1404037-E6 0.
Preventing Radio Frequency Interference (RFI) Site Preparation Not recommended Best Better 0.1" = 1mm actual 39.37% : 254% SPG_001 Figure 34: RJ45 Connector Jacket Types Preventing Radio Frequency Interference (RFI) If you use UTP cabling in an installation, take precautions to avoid radio frequency (RF) interference.
Power Supply Requirements Site Preparation Power Supply Requirements Follow these recommendations when you plan power supply connections for your equipment: • Place the equipment in an area that accommodates the power consumption and component heat dissipation specifications. • Be sure that your power supply meets the site DC power or AC power requirements of the network equipment. • When you connect power to installed equipment, do not make this connection through an extension cord or power strip.
DC Power Requirements Site Preparation • • Provide alarms on certain error conditions. Provide short-circuit protection.
Following Applicable Industry Standards Following Applicable Industry Standards Always follow applicable industry standards. For more information, see the following ANSI/TIA/EIA standards: • • • • ANSI/TIA/EIA-568-A—the six subsystems of a structured cabling system ANSI/TIA/EIA-569-A—design considerations ANSI/TIA/EIA-606—cabling system administration ANSI/TIA/EIA-607—commercial building grounding and bonding requirements You can access these standards at: www.ansi.org or www.tiaonline.org.
Building Stacks Introduction to Stacking on page 51 Planning to Create Your Stack on page 60 Setting up the Physical Stack on page 65 A stack consists of a group of up to eight switches that are connected to form a ring. The stack offers the combined port capacity of the individual switches. But it operates as if it were a single switch, making network administration easier. Stacking is facilitated by the SummitStack feature – part of the ExtremeXOS Edge license.
Building Basic Stacks Building Stacks Figure 35: Switches Connected to Form a Stack The following sections introduce you to the basic principles of stacking and provide recommendations for creating stacks. More information to answer your questions about stacking and help you plan your configuration is available on the Extreme Networks GTAC Knowledge Base.
Building Basic Stacks Building Stacks The top half of the number blinks if the switch is the primary, and the bottom half blinks if it is the backup. If the LED is steadily lit, the switch is a standby. If the LED is off the switch is not configured as a member of a stack. The Mode button is used to cycle through three display modes for the port LEDs. After two presses of the Mode button, the port LEDs will enter the STK Display Mode, indicated by the STK LED.
SummitStack Topologies Building Stacks stack. Consider these differences when selecting a master node, selecting a backup node, and configuring failover operation. Note We recommend that the master and backup roles be assigned to switches from the same series. For example, if the master node is an X460-G2 switch, the backup node should also be an X460-G2 switch. Similarly, if the master node is an X670-G2 series switch, the backup node should also be an X670-G2 switch.
SummitStack Topologies Building Stacks Figure 37: Example of a Stack, Showing the Active Topology and the Stack Topology A stack is the collection of all switches, or nodes, that are cabled together to form one virtual switch using the ExtremeXOS SummitStack feature. The maximum cable length supported between switches depends on the types of switches in your stack, the installed option cards, and the configured stacking ports. For more information, see Planning to Create Your Stack on page 60.
SummitStack Topologies Building Stacks Figure 38: Graphical Representation of a Ring Topology Figure 39 shows what the same ring topology would look in actual practice. Each switch in the rack is connected to the switch above it and the switch below it. To complete the ring, a longer cable connects Switch 1 with Switch 8.
Building Stacks SummitStack Terms Figure 40: 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 31.1 User Guide. SummitStack Terms Table 20 describes the terms used for the SummitStack feature.
SummitStack Terms Building Stacks Table 20: List of Stacking Terms (continued) 58 Term Description Stacking link A cable that connects a stacking port of one stackable switch to a stacking port of another stackable switch, plus the stacking ports themselves. Node A switch that runs the ExtremeXOS operating system and is part of a stack. Synonymous with stackable switch.
Building Stacks SummitStack Terms Table 20: List of Stacking Terms (continued) Term Description Backup node The node assigned to take over the role of master if the master node fails. The master node keeps the backup node's databases synchronized with its own databases in preparation for such an event. If and when the master node fails, the backup node becomes the master node and begins operating with the databases it has previously received.
Building Stacks Planning to Create Your Stack Table 20: List of Stacking Terms (continued) Term Description Operational node A node that has achieved operational state as a card in a slot. The operational state can be displayed using the show slot {slot {detail} | detail }command. System uptime The amount of time that has passed since the last node role election. You can display the system uptime by entering the show switch {detail } command on the master node.
Recommendations for Placing Switches for Stacked Operation Building Stacks Recommendations for Placing Switches for Stacked Operation For best results in a SummitStack configuration, follow these recommendations for physically situating your equipment: • Use the shortest possible stacking cables to connect the switches in the stack. This reduces the likelihood that the stacking cables might accidentally be damaged or disconnected. Stacking cables are available in lengths ranging from 0.
Selecting Native and Alternate Stacking Ports Building Stacks If any node does not have the right version, install the correct version on that node. Use the same image partition on all nodes. After stacking is enabled, images can be upgraded from the stack only if the same image is selected on all nodes. • If you intend to deploy new units that might be part of a stack in the future, turn on stacking mode during initial deployment to avoid the need for a future restart.
Combining Switches from Different Series Building Stacks show stacking {node-address node_address | slot slot_number} detail • To unconfigure the stacking-support feature, use the following command: unconfigure stacking-support Note Commands that contain the stacking-support keyword apply to the local switch only. This means that each switch that will use alternate stacking ports must be configured separately.
Using the Extreme Stacking Tool Building Stacks To use the Stacking Tool, follow these steps. 1. Open the Stacking Tool (https://stackingtool.extremenetworks.com/StackingTool/) in a web browser. Note The Stacking Tool is also available in the Support Tools section of the Extreme Portal. 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.
Setting up the Physical Stack Building Stacks In addition to statistics and recommendations, colors in the display show whether the selected switch models and stacking methods are compatible.
Building Stacks Connecting the Switches to Form the Stack Ring The examples in the following sections show various physical stacking arrangements: all switches in a single rack, switches in two adjacent racks, and switches at the tops of several racks in a row. Example: Basic Stack with Four Switches This example shows a stack of four switches in a single rack. The slot numbers presume a console connection to the switch at the top of the physical stack.
Connecting the Switches to Form the Stack Ring Building Stacks Figure 43: SummitStack Cable Connections Using Eight Switches with Integrated SummitStack Ports Table 23 lists the recommended order for connecting the stacking ports in this example. Table 23: Basic Stack with Eight Switches: Connections Connect this slot and port . . . . . .
Building Stacks Connecting the Switches to Form the Stack Ring Slot 1 Slot 2 Slot 3 Slot 4 Figure 44: SummitStack Configuration Using Different Switch Models and SummitStack 40G Cables Example: Stacked Switches across Two Racks The following example shows four switches – two of one model, two of another model – physically located in two adjacent racks. Table 24 lists the recommended order for connecting the stacking ports in this example.
Building Stacks Connecting Stacking Cables Table 25 lists the recommended order for connecting the stacking ports in this example. Table 25: Stacked Switches across Several Racks: Connections Connect this slot and port . . . . . .
Connecting Your Stack to the Management Network Building Stacks Connecting Active or Passive QSFP+ Cables The QSFP+ direct-attach cable is used to connect ports on any of the following modules: • • X460-G2 switch with VIM-2q module, which supports SummitStack-V160 X670-G2-48x-4q switch, which supports SummitStack-V80 (supported in EXOS 30.1 and prior releases only), V-160, or V-320 Follow these steps to connect a QSFP+ direct-attach cable. 1.
Building Stacks Connecting Your Stack to the Management Network Connect your management console to the Ethernet management port on the switch that will become the stack primary node. If you plan to configure redundancy, connect to the console ports of all switches in the stack that will be primary-capable. If you followed the cabling examples in Connecting the Switches to Form the Stack Ring on page 65, and if you use the Easy Setup configuration procedure, only slots 1 and 2 can become the primary node.
Installing Your Switch Safety Considerations for Installing Switches on page 73 What You Will Need for the Installation on page 73 Attaching the Switch to a Rack or Cabinet on page 74 Installing Optional Components on page 76 Installing Internal AC Power Supplies on page 76 Turn on the Switch on page 78 Connect Network Interface Cables on page 79 Before you attempt to install or remove an Extreme Networks switch, read the precautions in Safety Considerations for Installing Switches on page 73.
Safety Considerations for Installing Switches Installing Your Switch 7. Perform initial network connection and configuration. See Activating and Verifying the Switch on page 80. Safety Considerations for Installing Switches Read the information in this chapter thoroughly before you attempt to install or remove an Extreme Networks switch. Ensure that proper ESD (electrostatic discharge) controls are in use before switch maintenance is performed.
Attaching the Switch to a Rack or Cabinet Installing Your Switch You need the following additional tools and equipment. These are not provided with your switch. • Rack mounting screws: eight for a four-post installation; four for other installations. The size of the screws will vary based on the rack system you are using. • • Screwdriver for securing the rack mounting screws. • AC power cord.
Installing Your Switch Attaching the Switch to a Rack or Cabinet Figure 50: Front Mount: Attaching Short Mounting Brackets 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. Secure the mounting bracket flanges to the rack, using screws that are appropriate for the rack. (Rack-mounting screws are not provided.) 5.
Installing Optional Components Installing Your Switch b. Secure the rear mounting brackets to the rack posts using suitable screws (not provided). Be sure the switch is level. 6. If a grounding lug is present, ground the switch. a. b. c. d. e. At one end of the wire, strip the insulation to expose 1/2 inch (12 mm) of bare wire. Identify the grounding lug on the back of the switch. Insert the stripped wire into the grounding lug.
Selecting Power Cords for AC Power Supplies Installing Your Switch 2000 W AC PSU Part numbers XN-ACPWR-2000W-FB and XN-ACPWR-2000W-F are compatible with 5520-24W, 5520-12MW-36W, and 5520-48W switch models. For installation instructions, see Install a 350 W, 715 W, 1100 W, or 2000 W Internal AC Power Supply on page 77. Selecting Power Cords for AC Power Supplies An AC power cord is not included with an AC power supply.
Installing Your Switch Turn on the 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.
Connect Network Interface Cables Installing Your Switch Connect Network Interface Cables Use the appropriate type of cable to connect the ports of your switch to another switch or router. Cable Type Maximum Distance CAT5E 55 meters CAT6 55 meters CAT6A 100 meters Working carefully, one port at a time, do the following: 1. Verify that you have identified the correct cable for the port. 2.
Activating and Verifying the Switch Connecting the Switch to a Management Console on page 80 Logging in for the First Time on EXOS on page 81 Configuring the Switch's IP Address for the Management VLAN on page 82 Changing the Switch OS via the Bootloader Menu on page 82 Changing the Switch OS via the Startup Menu on page 83 Logging In for the First Time on VOSS on page 83 Operating system selection and activation can be done via the following: 1.
Logging in for the First Time on EXOS Activating and Verifying the Switch Logging in for the First Time on EXOS Extreme recommends onboarding your switch with ExtremeCloud™. Log in or create your XIQ administrator account in order to select your switch operating system with XIQ at https:// extremecloudiq.com ExtremeXOS is the default operating system for the 5520 Series.
Configuring the Switch's IP Address for the Management VLAN Activating and Verifying the Switch Configuring the Switch's IP Address for the Management VLAN You can configure the switch's IP address for the management virtual LAN (VLAN). Note The management port is part of the mgmt VLAN. This VLAN membership cannot be changed. Log in to the management console, connect to the switch, and follow these steps. 1.
Changing the Switch OS via the Startup Menu Activating and Verifying the Switch Changing the Switch OS via the Startup Menu Extreme recommends onboarding your switch with ExtremeCloud™. Log in or create your XIQ administrator account in order to select your switch operating system with XIQ at https:// extremecloudiq.com. ExtremeXOS is the default operating system for the 5520 Series.
Installing Expansion Modules Installing a V300 Virtual Port Extender on page 84 Installing a V400 Virtual Port Extender on page 105 Installing a Half-Duplex to Full-Duplex Converter on page 105 Install a Versatile Interface Module in a 5520 Series Switch on page 108 This chapter describes how to install expansion modules: • • • • • The V300 Virtual Port Extender The V400 Virtual Port Extender The LRM/MACsec Adapter The Half-Duplex to Full-Duplex Converter Versatile interface modules (5520-VIMs) Note Read
Install a V300 Virtual Port Extender on a Wall Installing Expansion Modules 5. When power is connected, verify that the SYS LED on the port extender turns green. If the SYS LED does not turn green, verify that the power source is on and the connection was made properly. 6. Optionally, connect the port extender to a redundant power source, depending on the model.
Install a V300 Virtual Port Extender on a Wall Installing Expansion Modules Two short brackets attached to the extender by 4 wood screws and 4 anchors, provided in the accessory kit. Figure 53: V300-8P-2T-W Wall Mounting 2. Use the optional short bracket as a template and mark the holes to be used. Extreme recommends using 2 holes per short rack ear.
Installing Expansion Modules Install a V300 Virtual Port Extender on a Wall 3. For non-PoE models, after attaching the short brackets, attach the PSUs to the PSU mounting brackets using two cable ties.
Install a V300 Virtual Port Extender Under or on a Table Surface Installing Expansion Modules Figure 55: V300HT-8P/8T-2X Wall Mount with PSU 4. Drill the holes and attach the bracket using the provdied woodscrews and anchors. 5. Connect the LAN/Ethernet cables to the extender. 6. When power is connected, verify that the SYS LED on the port extender turns green.
Install a V300 Virtual Port Extender Under or on a Table Surface Installing Expansion Modules Figure 56: Table Surface Mounting There are several orientations for installtion under a table. To install a V300-8P-2T-W model under a table: 1. Attach the short mounting brackets (included in kit) to the sides of the port extender using four screws (included) for each bracket.
Install a V300 Virtual Port Extender in a VESA Mount Installing Expansion Modules 2. For non-PoE models, after attaching short brackets and PSU bracket to the V300, attach the PSU(s) to the PSU mounting bracket using two cable ties: Figure 58: V300-8P/8T-2X Under Table Mounting with PSU Figure 59: V300HT-8P/8T-2X Under Table Mounting with PSU 3. Secure the port extender to to the underside of the table using the provided 4 wood screws and 4 anchors. 4.
Install a V300 Virtual Port Extender in a VESA Mount Installing Expansion Modules • M4 #2 Phillips screwdriver (magnetic screwdriver recommended) The VESA mount comes with 4 screws and should be used when mounting the V300 Virtual Port Extender to a VESA mount for 75mm x 75mm or 35mm x 75mm mounting dimensions. To install a V300 Virtual Port Extender in a VESA Mount: 1.
Install a V300 in a Single Rack Mount Installing Expansion Modules 2. For non-PoE models, after attaching the PSU bracket to the V300, attach the PSU(s) to the PSU mounting brackets using two cable ties: Figure 61: V300-8P/8T-2X VESA Mounting with PSU 3. Connect the LAN/Ethernet cables to the extender. 4. When power is connected, verify that the SYS LED on the port extender turns green.
Installing Expansion Modules Install a V300 in a Single Rack Mount 4.
Install a V300 in a Single Rack Mount Installing Expansion Modules Figure 63: V300HT-8P/8T-2X Single Rack Mounting with PSUs 94 ExtremeSwitching 5520 Series Hardware Installation Guide
Install a V300 in a Dual Rack Mount Installing Expansion Modules 5. For a more secure attachment, attach the two PSU mounting brackets to the rack using customerprovided screws: Figure 64: V300HT-8P/8T-2X Single Rack Mounting with DIN Rail and PSUs 6. Alternatively, the PSU can be mounted to the long rack ear using cable ties.
Install a V300 in a Dual Rack Mount Installing Expansion Modules 5.
Installing Expansion Modules Install a V300 in a Dual Rack Mount Figure 66: V300HT-8P/8T Dual Rack Mounting with PSUs ExtremeSwitching 5520 Series Hardware Installation Guide 97
Install a V300 in a DIN Rail Mount Installing Expansion Modules 6.
Installing Expansion Modules Install a V300 in a DIN Rail Mount 3. Attach the PSUs to the DIN bracket using cable ties, and then attach the bracket to the DIN Rail: Figure 68: V300HT-8P-2X DIN Rail Mount with dual XN-ACPWR-320W-HT PSUs 4. For PSU 16807, attach the port extender to the DIN Rail using one DIN bracket and the screws provided.
Install a V300 in a DIN Rail Mount Installing Expansion Modules 5. Attach the PSUs directly to the DIN rail: Figure 69: V300HT-8P-2X DIN Rail Mount with dual 16807 PSUs 6. For XN-ACPWR-60W-HT-DIN, attach the port extender to the DIN Rail using one DIN bracket and the screws provided.
Install a V300-8P-2T-W Model in a Single or Dual Rack Mount Installing Expansion Modules 7.
Installing a V300-8P-2T-W Model in a DIN Rail Mount Installing Expansion Modules 4. Secure the port extender to each post with rack-mounting screws (not provided). 5. Connect the LAN/Ethernet cables to the extender. 6. When power is connected, verify that the SYS LED on the port extender turns green.
Installing Expansion Modules Installing a V300-8P-2T-W Model in a DIN Rail Mount 3. Align the DIN bracket with the DIN rail and attach the port extender: Figure 74: DIN Rail Mounting Option 1: Secure the Port Extender 4. For option 2, attach the DIN mounting bracket to the side panel of the port extender: Figure 75: Din Rail Mounting Option 2: Attach the Bracket 5.
Connecting the V300 Virtual Port Extender to Power Installing Expansion Modules 6. When power is connected, verify that the SYS LED on the port extender turns green. Connecting the V300 Virtual Port Extender to Power V300-8P-2W and V300-8T-2W models run on AC power with included power supply unit(s). V300HT-8P-2W and V300HT-8T-2W models can run on redundant power supplies (RPS). HT model power supplies are sold separately.
Installing a V400 Virtual Port Extender Installing Expansion Modules To attach the V300 switch to a redundant power source (HT models only), do the following: 1. Connect the RPS to the included screw terminal connector (use adequate AWG wire for DIN PSUs). 2. Plug the screw terminal connector into the port extender DC input (PSU2 recommended). 3.
Installing Half-Duplex to Full-Duplex Converters in a 3Slot Modular Shelf Installing Expansion Modules Installing Half-Duplex to Full-Duplex Converters in a 3-Slot Modular Shelf Refer to Installing a Half-Duplex to Full-Duplex Converter on page 105 for installation options for the Half-Duplex to Full-Duplex Converter. Before installing the converter in the 3-slot modular shelf (part no. STK-RPS-1005CH3), mount the shelf in the rack. Follow the steps in the 3-Slot Modular Shelf Quick Reference Guide.
Installing Expansion Modules Connecting a Half-Duplex to Full-Duplex Converter to its Power Adapter 4. Place the converter onto the screws and gently lower it so that it locks into place. 5. Connect the converter to its power adapter, following the instructions in Connecting a Half-Duplex to Full-Duplex Converter to its Power Adapter on page 107. 6. Connect the full-duplex ports (FD1 - FD4) to the switch. 7. Connect the half-duplex ports (HD1 - HD4) to your half-duplex devices.
Install a Versatile Interface Module in a 5520 Series Switch Installing Expansion Modules Install a Versatile Interface Module in a 5520 Series Switch This section describes how to install a versatile interface module (VIM) in the front slot of a 5520 Series switch. You need the following tools and materials to install a VIM: • • ESD-preventive wrist strap Flat head screwdriver Caution Extreme Networks VIMs are not hot-swappable.
Install a Versatile Interface Module in a 5520 Series Switch Installing Expansion Modules 1 = VIM module retaining screw locations ExtremeSwitching 5520 Series Hardware Installation Guide 109
Replacing AC Power Supplies Replace a 350 W or 715 W AC Power Supply on page 110 Replace an 1100 W AC Power Supply on page 112 Replace a 2000 W AC Power Supply on page 115 This chapter describes how to replace AC power supplies in a switch. Caution Power supplies that support PoE cannot be installed in switches that do not support PoE. The switch operating system prevents PoE power contribution from a power supply that is not listed for use with that particular switch model.
Replacing AC Power Supplies Replace a 350 W or 715 W AC Power Supply 3. Push the latching tab toward the power supply handle and pull outward on the handle to disengage the power supply internal connectors. See Figure 80. Figure 80: Removing a 350 W or 715 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.
Replace an 1100 W AC Power Supply Replacing AC Power Supplies 7. Push the power supply in until the latch snaps into place. Caution Do not slam the power supply into the switch. Figure 81: Installing A 350 W or 715 W AC Power Supply 8. Connect the power cord to the power supply and to a grounded AC power outlet. Warning Always be sure that the source outlet is properly grounded before plugging the AC power cord into the AC power supply. 9.
Replace an 1100 W AC Power Supply Replacing AC Power Supplies You need the following tools and materials to replace a 1100 W AC power supply: • • Thermal protective gloves AC power cord, if you will not be re-using the cord from the removed power supply To replace a 1100 W AC power supply, follow these steps: 1. Disconnect the AC power cord from the wall outlet and from the power supply. 2.
Replace an 1100 W AC Power Supply Replacing AC Power Supplies 4. Carefully slide the power supply the rest of the way out of the switch. Caution Power supplies can become very hot during operation. Wear thermal protective gloves when you remove a power supply from an operating switch. Note If you are not installing a replacement power supply, install a cover over the unoccupied power supply bay. Unoccupied bays must always be covered to maintain proper system ventilation and EMI levels. 5.
Replace a 2000 W AC Power Supply Replacing AC Power Supplies 8. Connect the power cord to the power supply and to a grounded AC power outlet. Warning Always be sure that the source outlet is properly grounded before plugging the AC power cord into the AC power supply. 9. If the power supply is equipped with a power cord retainer, use the retainer to secure the power cord to the power supply.
Replace a 2000 W AC 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 84: Removing an ExtremeSwitching 2000 W AC Power Supply 4. Carefully slide the power supply the rest of the way out of the switch. Caution Power supplies can become very hot during operation. Wear thermal protective gloves when you remove a power supply from an operating switch.
Replace a 2000 W AC Power Supply Replacing AC Power Supplies 6. Carefully slide the power supply all the way into the power supply bay. Figure 85: Installing an ExtremeSwitching 2000 W AC Power Supply 7. Push the power supply in until the latch snaps into place. Caution Do not slam the power supply into the switch. 8. Connect the power cord to the power supply and to a grounded AC power outlet.
Replacing Fan Modules Pre-Installation Requirements on page 118 Airflow Direction Requirements on page 118 Replacing a Fan Module on page 119 For switches with replaceable fan modules, refer to the following information to replace the fan modules. Illustrations in this chapter show switches that might not be identical to the ones you are using. However, the procedure for replacing a fan module is the same for all ExtremeSwitching switches.
Replacing a Fan Module Replacing Fan Modules Replacing a Fan Module To replace the fan module in a switch, do the following: 1. Completely loosen the captive retaining screws on the fan module. On most switch models, the fan module has two retaining screws at the bottom corners of the module, as shown in Figure 86. 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.
Replacing a Fan Module 4. Carefully slide the replacement fan module into the switch. Figure 87: Installing a Fan Module 5. Align and fully tighten the captive retaining screws.
Monitoring the Device 5520 Series Switch LEDs on page 121 Versatile Interface Modules (VIM) Port LEDs on page 123 The following topics help you monitor the status of the switch/appliance as it is running.
Monitoring the Device Port LEDs in Default (SYS) Mode Figure 88: 5520 Series Mode and System Status LEDs Note Front-panel PoE ports use Amber to indicate PoE states.
Port LEDs in STK Mode Monitoring the Device 1x40 mode, the first LED will indicate the port state and traffic and the second LED will be offColor and blink pattern indicate speeds, as referenced by the following table: Table 29: Port LEDs in SPD Mode Color/State Speed Slow blinking green 10Mbps Fast blinking green 100Mbps Steady green 1000Mbps Slow blinking amber 2.
5520-VIM Port LEDs in Default (SYS) Mode Monitoring the Device 5520-VIM Port LEDs in Default (SYS) Mode In the default SYS mode, SPD is OFF, and the port status will display behavior for link, traffic, and PoE as described in the following table: Table 32: 5520-VIM Port LEDs in SYS Mode (default) Color/State Meaning Steady green Link is OK; port is not powered Blinking green Link is OK and transmitting packets; port is not powered Slow blinking green Port is admin disabled Off Port is not powered
Technical Specifications ExtremeSwitching 5520 Series Technical Specifications on page 125 V300 Virtual Port Extender Specifications on page 133 V400 Virtual Port Extender Technical Specifications on page 136 Half-Duplex to Full-Duplex Converter Technical Specifications on page 139 350 W AC Power Supplies Technical Specifications on page 141 715 W AC Power Supplies Technical Specifications on page 142 1100 W AC Power Supplies Technical Specifications on page 143 2000 W AC Power Supply Technical Specificatio
ExtremeSwitching 5520 Series Technical Specifications • • Technical Specifications 5520-48W switch 5520-48SE switch Table 34: 5520 Unpackaged Dimensions (with fan modules; no PSU) 5520 (all models) Height: 1.7 inches (4.35 cm) Width: 17.4 inches (44.19 cm) Length: 17.4 inches (44.19 cm) Table 35: 5520 Unpackaged Dimensions (with fan modules and PSU) 5520 (all models) Height: 1.7 inches (4.35 cm) Width: 17.4 inches (44.19 cm) Length: 18.1 inches (45.
Technical Specifications Fan and Accoustic Noise Table 38: 5520 Packaged Dimensions (continued) Length: 23.4 inches (59.4 cm) Table 39: 5520 Packaged Weight (with fan modules; no PSU) 5520-24T 19.06 lb (8.65 kg) 5520-24W 20.63 lb (9.36 kg) 5520-24X 20.28 lb (9.20 kg) 5520-12MW-36W 20.81 lb (9.44 kg) 5520-48T 19.55 lb (8.87 kg) 5520-48W 20.28 lb (9.17 kg) 5520-48SE 19.42 lb (8.81 kg) Table 40: VIM Module Unpacked Weights and Dimensions VIM Module Weight Dimensions 5520-VIM-4X 0.37 lb (0.
Fan Speed and Temperature Variation Technical Specifications Fan Speed and Temperature Variation The speed of the fan increases only when the temperature of the device increases. Fan speed is not dependent on any fan failures. Table 42: 5520 Fan Speed and Power Consumption Fan Speed Fan Module RPM (typical) Power Inlet Fan Outlet Fan Typical Full (100%) 21000 (typ) 19000 (typ) 12V*1.7A = 20.
Technical Specifications Power Options Table 43: 5520 Power Supply Options (continued) Switch model Power supply Input rating 5520-24W switch 5520-12MW-36W switch 5520-48W switch 1100 W AC power supply: Part nos. XN-ACPWR-1100W-FB and 10941 1100 W AC PS FB (front to back) Model PSSF112101A 100-127 V 5520-24W switch 5520-12MW-36W switch 5520-48W switch 2000 W AC power supply: Part nos.
Mean Time Between Failures (MTBF) Technical Specifications Mean Time Between Failures (MTBF) Table 45: 5520 MTBF Ambient Temp = 25°C 5520-24T System 545,928 base (all boards, modules excluded) 5520-24W 5520-24X 5520-12M W-36W 5520-48T 5520-48W 5520-48SE 480,404 392,662 506,767 417,304 633,004 531,218 Complete system - A (system base+full fans+1 PSU) One 2000W PSU 185,080 174,532 179,138 One 1100W PSU 212,906 199,067 205,081 One 715W PSU 218,879 204,272 210,617 One 350W 270,711 PSU
Technical Specifications Standards and Environmental Data Table 46: CPU, Memory (continued) CPU/Memory 2 GB SLC NAND Flash Memory 8MB packet buffer per chip Standards and Environmental Data Table 47: Safety Standards North American Safety of ITE UL 60950-1 UL 62368-1 CAN/CSA No. 22.2 62368-1-14 CAN/CSA 22.2 No. 60950-1-07 Complies with FCC 21CFR 1040.
Standards and Environmental Data Technical Specifications Table 48: EMI/EMC Standards (continued) International EMC certifications CISPR 32: 2015, Class A (International Emissions) IEC 61000-4-2:2008 Electrostatic Discharge, 8kV Contact, 15 kV Air, Criteria A IEC 61000-4-3-4-3:2010 Radiated Immunity 10V/m, Criteria IEC 61000-4-4-4-4:2012 Transient Burst, 1 kV, Criteria A IEC 61000-4-5-4-5:2014 Surge, 2 kV L-L, 2 kV L-G, Level 3, Criteria A IEC 61000-4-6-4-6:2013 Conducted Immunity, 0.
Technical Specifications V300 Virtual Port Extender Specifications Table 51: Environmental Data (continued) Packaged shock (half sine): 180 m/s2 (18 G), 6 ms, 600 shocks Packaged sine vibration: 5 to 62 Hz at velocity 5 mm/s, 62 to 500 Hz at 0.2 G Packaged random vibration: 5 to 20 Hz at 1.0 ASD w/–3 dB/oct.
Power Specifications Technical Specifications Table 54: V300 Packaged Dimensions (continued) V300-8P-2T-W Height: 3.08 in (7.82 cm) Width: 10.85 in (27.56 cm) Length: 11.52 in (29.26 cm) V300HT-8P-2X V300HT-8T-2X Height: 3.07 in (7.79 cm) Width: 10.15 in (25.78 cm) Length: 14.46 in (36.72 cm) Table 55: V300 Packaged Weight V300-8P-2X with 280W PSU 7.94 (3.6 kg) V300-8T-2X with 40W PSU 5.73 lb (2.6 kg) V300-8P-2T-W 4.1 lb (1.86 kg) V300HT-8P-2X V300HT-8T-2X 3.97 (1.
Technical Specifications Standards and Environmental Data Table 57: Power Specifications Minimum 3 Heat Dissipation (BTU/hr) Minimum 3 Power Consumption (Watts) Maximum 3 Heat Maximum 3 Dissipation Power (BTU/hr) Consumption (Watts) V300-8P-2X 25.9 7.6W 118.2 214.6W V300-8T-2X 11.6 3.3W 23.8 7.0W V300-8P-2T-W 24.57 7.2W 82.1 129.1W V300HT-8P-2X 25.8 7.6W 113.7 213.3W V300HT-8T-2X 16.6 4.9W 7.4 25.
V400 Virtual Port Extender Technical Specifications V400 Virtual Port Extender Technical Specifications The following V400 Virtual Port Extender models are available: • • • • V400-24t-10GE2 (part no. 18101) V400-24p-10GE2 (part no. 18102) V400-48t-10GE4 (part no. 18103) V400-48p-10GE4 (part no. 18104) Table 60: V400 Unpackaged Dimensions V400-24t-10GE2 Height: 1.70 in (4.32 cm) Width: 9.97 in (25.3 cm) Length: 17.34 in (44.0 cm) V400-24p-10GE2 Height: 1.70 in (4.32 cm) Width: 9.97 in (25.
Technical Specifications Power Specifications Table 62: V400 Packaged Dimensions (continued) V400-48t-10GE4 Height: 4.49 in (11.4 cm) Width: 14.66 in (37.2 cm) Length: 22.02 in (55.9 cm) V400-48p-10GE4 Height: 4.49 in (11.4 cm) Width: 19.86 in (50.4 cm) Length: 22.02 in (55.9 cm) Table 63: V400 Packaged Weight V400-24t-10GE2 9.00 lb (4.08 kg) V400-24p-10GE2 11.44 lb (5.19 kg) V400-48t-10GE4 9.69 lb (4.39 kg) V400-48p-10GE4 16.56 lb (7.
Fan and Acoustic Sound Technical Specifications Table 65: Power Specifications Minimum 3 Heat Dissipation (BTU/hr) Minimum 3 Power Consumption (Watts) Maximum 3 Heat Maximum 3 Dissipation Power (BTU/hr) Consumption (Watts) V400-24t-10GE2 36.1 10.6 75.2 22.1 V400-24p-10GE2 109.8 32.2 336.8 478.7 V400-48t-10GE4 66.0 19.3 134.8 39.5 V400-48p-10GE4 168.9 49.5 583.2 910.9 VX-RPS-1000 141.3 41.4 3152.
Technical Specifications Standards and Environmental Data Standards and Environmental Data Table 67: Safety Standards North American Safety of ITE UL 60950-1 2nd Ed., A2:2014, Listed Device (US) CSA 22.2 #60950-1-07 2nd Ed., 2014-10 Canada) Complies with FCC 21CFR 1040.
Half-Duplex to Full-Duplex Converter Power Specifications Technical Specifications Half-Duplex to Full-Duplex Converter Power Specifications Table 70: Rest of the World External Power Pack (10958-CEE 7/1) Voltage input range 200-240 VAC Line frequency range 50 to 60 Hz Operating temperature 0°C to 40°C (32°F to 104°F) normal operation Table 71: North American External Power Pack (10959-NEMA 1-15P) Voltage input range 100-120 VAC Line frequency range 50 to 60 Hz Operating temperature 0°C to 40°C
Technical Specifications 350 W AC Power Supplies Technical Specifications Table 73: Safety Standards (continued) International EMC Certifications CISPR 22: Ed 5.2, Class A (International Emissions) CISPR 24:A2: Class A (International Immunity) IEC 61000-4-2: EN 61000-4-2:2009 Electrostatic Discharge, 8kV Contact, 15 kV Air, Criteria A IEC 61000-4-3: EN 61000-4-3:2006+A1:2008 Radiated Immunity 10V/m, Criteria A IEC 61000-4-4: am1 ed.2.
715 W AC Power Supplies Technical Specifications Technical Specifications Table 75: Power Specifications (continued) Power cord wall plug Refer to Power Cord Requirements for AC-Powered Switches and AC Power Supplies on page 144 Efficiency Minimum efficiency: 88% at maximum power output Table 76: Environmental Specifications Operating temperature -10°C to 50°C (normal operation) Storage temperature -40°C to 70°C Operating humidity 93% relative humidity, non-condensing at 30C 30 m/s2 (3 G) Operat
Technical Specifications 1100 W AC Power Supplies Technical Specifications 1100 W AC Power Supplies Technical Specifications AC Power Supplies The 1100 W AC power supplies with front-to-back airflow (part nos. XN-ACPWR-1100W-FB and 10941) are available for use in 5520-24W, 5520-12MW-36W, and 5520-48W model switches. Table 80: Physical Specifications Dimensions Height: 1.57 inches (4.0 cm) Width: 3.25 inches (8.3 cm) Length: 10.22 inches (26.0 cm) Weight 2.55 lb (1.
2000 W AC Power Supply Technical Specifications Technical Specifications 2000 W AC Power Supply Technical Specifications The 2000 W AC power supplies with front-to-back airflow (part nos. XN-ACPWR-200W-FB and XNACPWR-200W-F) are available for use in 5520-24W, 5520-12MW-36W, and 5520-48W model switches: Table 83: Physical Specifications Dimensions (with handle) Height: 1.57 inches (4 cm) Width: 3.25 inches (8.25 cm) Length: 11.51 inches (29.25 cm) Dimensions (without handle) Height: 1.
Technical Specifications Console Connector Pinouts • The power cord must have an appropriately rated and approved wall plug applicable to the country of installation. • For cords up to 6 feet (2 m) long, the wire size must be 18 AWG (.75 mm2) minimum; over 6 feet, the minimum wire size is 16 AWG (1.0 mm2). For details about obtaining AC power cords for use in your country, refer to http:// www.extremenetworks.com/product/powercords/.
Console Connector Pinouts Technical Specifications Figure 90: PC-AT Serial Null-modem Cable Pinouts Table 87 shows the pinouts for the RJ45 console port on the ExtremeSwitching switches.
Technical Specifications Console Connector Pinouts Table 88: Pinouts for an RJ45 to DB-9 Adapter (continued) Signal RJ45 Pin DB-9 Pin DSR (data set ready) 7 4 RTS (request to send) 8 7 ExtremeSwitching 5520 Series Hardware Installation Guide 147
Safety and Regulatory Information Considerations Before Installing on page 148 General Safety Precautions on page 149 Maintenance Safety on page 150 Fiber Optic Ports and Optical Safety on page 150 Cable Routing for LAN Systems on page 151 Installing Power Supply Units and Connecting Power on page 152 Selecting Power Supply Cords on page 153 Battery Notice on page 153 Battery Warning - Taiwan on page 153 EMC Warnings on page 154 Japan (VCCI Class A) on page 154 Korea EMC Statement on page 154 Warning Read t
General Safety Precautions Safety and Regulatory Information ◦ Well ventilated and away from sources of heat including direct sunlight. ◦ Away from sources of vibration or physical shock. ◦ Isolated from strong electromagnetic fields produced by electrical devices. • For equipment designed to be installed in environments that are not environmentally controlled, such as outdoor enclosures, see the product data sheet or for environmental conditions, temperature, and humidity.
Safety and Regulatory Information Maintenance Safety Maintenance Safety When you perform maintenance procedures on Extreme Networks equipment, follow these recommendations: • Use only authorized accessories or components approved for use with this system. Failure to follow these instructions may damage the equipment or violate required safety and EMC regulations. • This system contains no customer serviceable components. Do not attempt to repair a chassis, power supply, module, or other component.
GBIC, SFP (Mini-GBIC), QSFP+, XENPAK, and XFP Regulatory Compliance Safety and Regulatory Information GBIC, SFP (Mini-GBIC), QSFP+, XENPAK, and XFP Regulatory Compliance Extreme Networks pluggable optical modules and direct-attach cables meet the following regulatory requirements: • • • • • • Class 1 or Class 1M Laser Product EN60825-1:2007 2nd Ed.
Installing Power Supply Units and Connecting Power 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" or the data sheet for the power supply at www.extremenetworks.com. Warning Be sure to satisfy the requirements listed in this section when you install Extreme Networks power supplies or connect power.
Selecting Power Supply Cords Safety and Regulatory Information Selecting Power Supply Cords You can purchase a power cord for your product and for your specific country from your local Extreme Networks Channel Account Manager or Sales Manager, or you can purchase a cord from your local supplier. Requirements for the power cord are listed in the Technical Specifications for your product. To locate a Sales Manager or Partner in your region, visit www.extremenetworks.com/partners/whereto-buy.
Safety and Regulatory Information EMC Warnings EMC Warnings Taiwan BSMI Warning China CCC Warning Japan (VCCI Class A) Warning This is a Class A product based on the standard of the VCCI Council. If this equipment is used in a domestic environment, radio interference may occur, in which case the user may be required to take corrective actions.
Glossary ExtremeSwitching 5520 Series Hardware Installation Guide 155
Index Numerics 1100 W AC power supply features 23 installing 77 replacing 112 2000 W AC power supply features 23 installing 77 replacing 115 3-slot modular shelf and Half-Duplex to Full-Duplex Converter 106 350 W AC power supply features 22 installing 77 specifications 141 40G cable 69 5520 series switches 715 W AC power supply 110 acoustic noise 127 fan speed 127 features 11–13 power specifications 128 power supply unit (PSU) 128 specifications 125, 127, 128, 130, 131 5520 Series switches features 13 LEDs
Index candidate node 58 category 5 cable 42 combining switches in a stack 63 commercial building standards 50 components optional 76 configuration IP address 82 VLAN 82 configuring the switch 83 connecting to management console 80 connecting power 78 connector jackets RJ45 46 connector pinouts DB-9 console connector 145 null-modem cable 145 console port 5520 series 11–13 for stacked configurations 70 on switch 145 settings 80 control path 58 conventions notice icons vii text vii cooling 118 cords requireme
Index humidity 39 I industry standards 50 initial switch login 81, 83 installing 1100 W AC power supply 77 2000 W AC power supply 77 715 W AC power supply 77 connecting power 78 fiber optic cable 43 Half-Duplex to Full-Duplex Converter 105–107 optical transceivers 76 optional components 76 personnel 73 preparing 73 safety information 73 switches 72–74 tools 73 V300 Virtual Port Extender 84, 85, 88, 90, 92, 95, 98, 101, 102 V400 Virtual Port Extender 105 VIM module 108 IP settings configuring 82 J jackets
Index power supply unit (PSU) (continued) installing 77 power requirements 48 priority for node role election 59 Q QSFP+ cables 70 QSFP+ ports partitioning 21 QSFP28 ports partitioning 21 R rack attaching switch 74 rack specifications grounding 40 securing to floor 41 space requirements 40 radio frequency interference (RFI) patch panel installation 42 preventing 47 redundancy in a stack 53 regulatory information 148 removing 1100 W AC power supply 112 2000 W AC power supply 115 715 W AC power supply 110
Index SummitStack (continued) segment 60 state 60 topology 54, 58 web app 63 SummitStack 128G cable 61 SummitStack configuration 51 SummitStack-V feature 62 SummitStack-V160 65 support, see technical support switches attaching to cabinet 74 attaching to rack 74 connecting power 78 initial login 81, 83 installing 72 installing optional components 76 safety information 73 tools needed to install 73 T technical support contacting ix, x temperature 38 tools for installing equipment switches 73 top-of-rack sta
