Extreme Networks Consolidated “e” and “i” Series Hardware Installation Guide Extreme Networks, Inc. 3585 Monroe Street Santa Clara, California 95051 (888) 257-3000 http://www.extremenetworks.com Published: September 2009 Part number: 100279-00 Rev.
AccessAdapt, Alpine, Altitude, BlackDiamond, EPICenter, ExtremeWorks Essentials, Ethernet Everywhere, Extreme Enabled, Extreme Ethernet Everywhere, Extreme Networks, Extreme Standby Router Protocol, Extreme Turbodrive, Extreme Velocity, ExtremeWare, ExtremeWorks, ExtremeXOS, Go Purple Extreme Solution, ExtremeXOS ScreenPlay, ReachNXT, Sentriant, ServiceWatch, Summit, SummitStack, Triumph, Unified Access Architecture, Unified Access RF Manager, UniStack, the Extreme Networks logo, the Alpine logo, the BlackD
Contents Preface Part 1 Chapter 1 Introduction 13 Conventions 14 Related Publications 15 About This Guide How To Use This Guide 16 16 Common Features Common Switch Features Software Images 21 Full-Duplex Support 22 Management Ports 22 Mini-GBIC Type and Hardware/Software Support Mini-GBIC Types 23 23 GBIC Type and Hardware/Software Support 23 Part 2 Site Planning Chapter 2 Site Preparation Planning Your Site Step 1: Meeting Site Requirements Step 2: Planning for Stacking (Summit “e”
Contents Operating Environment Requirements Rack Specifications and Recommendations Part 3 Chapter 3 4 29 39 Planning for Stacking Maximum Switches in a Stack Planning Switch Placement in the Rack 41 41 43 Evaluating and Meeting Cable Requirements Cabling Standards Cable Labeling and Record Keeping Installing Cable RJ-45 Connector Jackets Radio Frequency Interference Making Network Interface Cable Connections 44 44 45 45 48 48 49 Meeting Power Requirements Power Supply Requirements AC Power Cable R
Contents Summit 400-48t switch Port Connections Management Port Uplink Redundancy Summit 400 “e” Series Optional Features 80 84 84 85 86 Summit “i” Series Switches Memory Requirements Port Connections 87 87 87 Summit1i Switch LEDs GBIC Ports Power Sockets Label Reset Button Console Port 88 89 89 90 90 90 90 Summit5i Switch LEDs GBIC Ports Power Sockets Label Reset Button Ethernet Management Port Console Port 91 92 93 93 93 93 94 94 Summit7i Switch LEDs GBIC Ports Reset Button Console Port Modem Por
Contents Console Port Power Supplies Labels Reset Button Summit48si Switch LEDs Chapter 4 Chapter 5 6 103 103 104 104 105 Summit Switch Installation Installation Summary 107 Mounting the Switch in a Rack 108 Placing the Switch on a Table or Shelf 112 Installing a Summit Stacked Configuration Connecting Summit 400 Series Switches Connecting Summit 200 Series and Summit 300-24 Switches 112 114 114 Verifying a Successful Installation 114 Removing the Switch from a Rack 115 Installing and Conn
Contents Part 4 Chapter 6 Chapter 7 Chapter 8 Alpine Switch Alpine 3800 Series Switch Models Features Port Connections Power Supplies Power Supply LEDs Fans 139 140 140 141 142 Alpine 3808 Switch 142 Alpine 3804 Switch 144 Alpine 3802 Switch Alpine 3802 Switch LEDs Alpine 3802 Power Versions 146 148 148 Alpine 3800 Series Chassis Installation Installation Summary 151 Safety Information 151 Installing the Chassis in a Rack 152 Grounding the Alpine 3800 Series Chassis Grounding the Alpine 38
Contents Removing an EPS-LD Unit Chapter 9 174 Alpine 3800 Series Switch Management Module SMMi Memory SMMi LEDs Chapter 10 Chapter 11 Part 5 Chapter 12 8 176 176 Installing SMMi Modules Verifying the SMMi Installation 177 178 Replacing SMMi Modules 178 Alpine 3800 Series I/O Modules Configuring I/O Modules GM-4Ti Module GM-4Xi Module GM-4Si Module GM-16X3 Module GM-16T3 Module FM-24Ti Module FM-24SFi Module FM-24MFi Module FM-32Ti Module FM-32Pi Module FM-8Vi Module WM-4T1i Module WM-4E1i Mod
Contents Chapter 13 Chapter 14 Chapter 15 Features Port Connections Fans Switch Connectivity and the Backplane Packet Switching and Routing 215 216 217 217 217 BlackDiamond 6816 Switch 218 BlackDiamond 6808 Switch 222 BlackDiamond 6804 Switch 225 BlackDiamond Power Supplies 110 VAC Power Supplies DC Power Supplies 227 229 230 Installing a BlackDiamond 6800 Series Switch Chassis Installation Summary 233 Safety Information 233 Installing the Chassis 234 Grounding the BlackDiamond 6800 Seri
Contents Replacing MSMs Chapter 16 Chapter 17 Part 6 Chapter 18 Part 7 Appendix A BlackDiamond 6800 Series I/O Modules Configuring I/O Modules 10GX3 Module G8Ti Module G8Xi Module G12SXi Module G16X3 Module G24T3 Module F48Ti Module F96Ti Module F32Fi Module P3cSi, P3cMi, P12cSi, and P12cMi Modules ARM MPLS Module A3cSi and A3cMi Modules I/O Module LEDs 263 264 266 267 269 270 273 275 276 279 280 284 287 290 293 Installing I/O Modules 294 Verifying the I/O Module Installation Displaying Slot Statu
Contents Power Cable Fuse Connections Lithium Battery Sicherheitshinweise (German) Wichtige Sicherheitshinweise Appendix B Appendix C Appendix D 310 311 311 312 313 313 Switch Technical Specifications Common Switch Specifications Console Port Cables 315 316 Summit 200 Series Switch Specifications 318 Summit 300 Series Switch Specifications Summit Switch Power Supply Specifications 322 323 Summit 400 Series Switch Specifications 326 Summit “i” Series Switch Specifications 327 Alpine 3800 Se
Contents Installing or Replacing a GBIC 372 Installing Mini-GBICs Safety Information Preparing to Install or Replace a Mini-GBIC Installing or Replacing a Mini-GBIC Appendix E 373 373 373 374 Installing the Summit Option Card and XENPAK Modules Installing the Summit Option Card 378 Installing a XENPAK Optical Transceiver Module 379 Removing a XENPAK Module 381 Index 12 Extreme Networks Consolidated "e" and "i" Series Hardware Installation Guide
Preface This preface provides an overview of this guide, describes guide conventions, and lists other publications that might be useful. NOTE To ensure proper operation of your Extreme Networks equipment, read this guide before you install any Extreme Networks equipment. Introduction This guide provides the information needed to install an Extreme Networks® “i” series or “e” series Summit™ switch, Alpine® switch, or BlackDiamond® switch. Information is provided for the switch models shown in Table 1.
Preface Table 1: Extreme Networks “i” and “e” series switch models (Continued) Switch Family Switch Model Alpine 3800 “i” series • Alpine 3802 • Alpine 3804 • Alpine 3808 • BlackDiamond 6804 • BlackDiamond 6808 • BlackDiamond 6816 BlackDiamond 6800 “i” series This guide contains information about site location, switch functionality, and switch operation. It is intended for use by network administrators who are responsible for installing and setting up network equipment.
Related Publications Table 3: Text conventions Convention Description Screen displays This typeface represents information as it appears on the screen, or command syntax. Screen displays bold This typeface represents commands that you type. The words “enter” and “type” When you see the word “enter” in this guide, you must type something, and then press the Return or Enter key. Do not press the Return or Enter key when an instruction simply says “type.
Preface About This Guide This guide describes how to prepare your site and how to install, maintain, and operate your Extreme Networks switch. It contains information about features that are common to all switches, as well as switch-specific features. This guide contains seven parts: • Common Features—Describes features that are shared by the Extreme Networks family of switches. This section describes software images, full-duplex support, management ports, and mini-GBIC and GBIC modules.
About This Guide Reference Information This guide contains appendixes that describe: • Switch safety issues • Switch specifications • Module specifications • Installation procedures for accessory equipment Appendix A, “Safety Information” describes important safety issues such as power, power cables, and fuses. Appendix B, “Switch Technical Specifications” is organized according to the family of switch: Summit, Alpine, and BlackDiamond.
Preface 18 Extreme Networks Consolidated "e" and "i" Series Hardware Installation Guide
Part 1 Common Features
1 Common Switch Features This chapter describes the features that are shared in common by the Extreme Networks family of switches.
Common Switch Features Table 4: Power LED activity for switches running ExtremeWare version 6.2 or later LED Color Indicates Power LED Green The indicated power supply unit (PSU) is powered up. Amber A PSU is installed, but not connected to power. Off The PSU is not receiving power or no PSU is present. NOTE If the information in the Release Notes that shipped with your switch differs from the information in this guide, follow the Release Notes.
Mini-GBIC Type and Hardware/Software Support Mini-GBIC Type and Hardware/Software Support The Summit48si and Summit “e” series switches, the BlackDiamond G16X3 module, and the Alpine GM-16X3 module support the small form pluggable (SFP) GBIC, also known as the mini-GBIC. The switches and the modules identify the type of mini-GBIC that is installed and verify that the mini-GBIC is an Extreme Networks-certified mini-GBIC. Mini-GBIC Types Mini-GBICs are Class 1 laser devices that operate at 3.3 V.
Common Switch Features Extreme Networks assumes no liability for 3rd party optics. While Extreme Networks does not block 3rd party optics, we cannot ensure that all 3rd party optics operate properly in all Extreme Networks switches. The customer assumes all risks associated with using 3rd party optics in Extreme Networks switches.
Part 2 Site Planning
2 Site Preparation This chapter describes how to prepare your site for installing Extreme Networks equipment. It contains information about environmental and cabling requirements, power requirements, and building and electrical code organizations.
Site Preparation Planning Your Site To install your equipment successfully, you should plan your site carefully.
Meeting Site Requirements 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. During the early planning stages of installing or modifying your LAN, it is important that you develop a thorough understanding of the regulations that pertain to your location and industry. Building and Electrical Codes Building and electrical codes vary depending on your location.
Site Preparation Wiring Closet Considerations You should consider the following recommendations for your wiring closet: • Ensure that your system is easily accessible for installation and service. See “Rack Specifications and Recommendations” on page 39 for specific recommendations. • Use appropriate AC or DC power for your switch. Foe more information about power requirements, see “Meeting Power Requirements” on page 49. • Use a vinyl floor covering in your wiring closet.
Meeting Site Requirements BlackDiamond 6816 Spacing Requirements. Due to chassis-to-chassis heating, Extreme Networks recommends placing no more than three BlackDiamond 6816 chassis next to each other. The following are some general recommendations for installing your BlackDiamond 6816 chassis: • A minimum of 17.32 inches (44 cm) between each set of three BlackDiamond 6816 chassis.
Site Preparation Figure 1: Airflow through the Alpine 3808 chassis Airflow through power supplies Airflow through chassis Airflow through chassis 38_air8 The airflow of the Alpine 3804 and Alpine 3802 moves from the left side of the chassis to the right side of the chassis as shown in Figure 2 and Figure 3. • Airflow for cooling power supplies moves left to right as you face the chassis. • Airflow for cooling modules moves left to right as you face the chassis.
Meeting Site Requirements Figure 3: Airflow through the Alpine 3802 chassis Airflow through chassis Airflow through chassis 3802air Extreme Networks Consolidated "e" and "i" Series Hardware Installation Guide 33
Site Preparation The airflow of the BlackDiamond 6800 series chassis moves through the power supplies and is independent of the airflow through the modules as shown in Figure 4, Figure 5, and Figure 6. For example, if the power supply fans fail, the airflow through the module area of the chassis will not cool down the power supplies. • Airflow for cooling power supplies moves front to back as you face the chassis. • Airflow for cooling modules moves left to right as you face the chassis.
Meeting Site Requirements Figure 5: Airflow through the BlackDiamond 6808 chassis 1 2 3 4 A B 50015 50015 5 6 7 8 Airflow through chassis POWER POWER DC OUT AC IN 50021 Airflow through power supplies Extreme Networks Consolidated "e" and "i" Series Hardware Installation Guide DC OUT AC IN 50021 BD_027 35
Site Preparation Figure 6: Airflow through the BlackDiamond 6804 chassis Airflow from fan tray Airflow through modules Airflow through power supplies 6804air Humidity. Operating humidity should be kept between 10 and 95% relative humidity (noncondensing). Monitoring Airflow Temperatures and Handling Overheating ExtremeWare provides a temperature logging function that allows the regular capturing of system temperature to the system log.
Meeting Site Requirements NOTE Note that automatic shutdown is based solely on the power supply temperature sensor and is not based on the temperature sensor of the MSM. The power supply temperature sensor readings are not visible through the ExtremeWare command set. This protection is designed to prevent thermal runaway conditions, and does not ensure the protection of the system modules. Internal temperatures above 55° C (+/- 5° C) can produce a decline in the long-term reliability of the system overall.
Site Preparation Excessive temperature can cause various symptoms to appear on a unit. Once a system has failed due to overheating, it should be carefully monitored to ensure that a system component or module has not been compromised. The following symptoms can indicate additional problems that require further analysis: • Checksum errors: Increased temperature can damage sensitive components resulting in an increased degradation of internal circuit reliability.
Meeting Site Requirements Figure 7: Using an ESD wrist strap when handling switch components 1 2 3 4 A B 50015 50015 5 6 7 8 ESD strap connector Connected wrist strap POWER POWER DC OUT AC IN 50020 DC OUT AC IN 50020 SPG_003 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.
Site Preparation • Install equipment into the lower half of the rack first to avoid making the rack top-heavy. • The rack should support approximately 600 pounds (272 kilograms). Protective Grounding for the Rack (Alpine and BlackDiamond Switches) Adequate grounding for Summit switches is provided through the power cord. No additional grounding of the rack is required. For Alpine and BlackDiamond switches, follow the recommendations in this section.
Planning for Stacking Figure 8: Properly secured rack Secure to floor with 3/8 inch lag screws or bolts SPG_007 Brace open distribution racks if the channel thickness is less than 1/4 inch (6.4 mm). Planning for Stacking Summit “e” series switches can be installed in a stacked configuration that is managed as one switching entity.
Site Preparation Table 5: Summit switch platform weights for stacking Platform Platform Weight Summit 200-24 1 Summit 200-24fx 1 Summit 200-48 2 Summit 300-24 1 Summit 400-24 2 Summit 400-48 4 10-gigabit option card 2 The sum of all platform weights in the stack must be no greater than 32. The total number of switches must be no greater than 8.
Planning for Stacking Sum of all platform weights: [2 * (weight of Summit 400-48)] + [2 * (weight of XEN card)] + [y * (weight ot Summit 400-24)] ≤ 32 (2 * 4) + (2 * 2) + (y * 2) ≤ 32 y ≤ 10 Because software supports only up to eight switches in a stack, the total maximum number of Summit 400 series switches in a stack is 8. Two Summit 400-48 switches are already installed; therefore, six Summit 400-24 switches can be in the stack.
Site Preparation Figure 10: Typical Summit 200 and 300 stacked configuration EW75002 Evaluating and Meeting Cable Requirements This section addresses requirements for the cables used when installing your network equipment.
Evaluating and Meeting Cable Requirements Cable Labeling and Record Keeping A reliable cable labeling system is essential when planning and installing a network. Maintaining 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.
Site Preparation NOTE Unshielded twisted pair (UTP) cable can build up ESD charges when being pulled into a new installation. Before installing category 5 UTP cables, discharge ESD from the cable by plugging it into a port on a switch or any network device that is not powered on.
Evaluating and Meeting Cable Requirements 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. Figure 12: Bend radius for fiber optic cable Minimum 2 in. (5.
Site Preparation Table 6: Media types and maximum distances (Continued) Mhz•Km Rating Maximum Distance (Meters) Standard Media Type 1000BASE-T Category 5 and higher UTP cable – 100 100BASE-TX Category 5 and higher UTP cable – 100 10BASE-T Category 3 and higher UTP cable – 100 * Proprietary to Extreme Networks. Connections between two Extreme Networks 1000BASE-LX interfaces that use 10/125 µm single-mode fiber can use a maximum distance of 10,000 meters.
Meeting Power Requirements 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 For more information about the power specifications of the Extreme Networks family of switches, see Appendix B, “Switch Technical Specifications”. Power Supply Requirements Adhere to the following requirements in order to operate your Extreme Networks equipment safely: • Make sure your equipment is placed in an area that accommodates the power consumption and component heat dissipation specifications.
Meeting Power Requirements Table 8: AC power receptacle requirements Switch Type Country Requirements Alpine/Summit North America 15 A service receptacle, NEMA 5-15 for 110/220 VAC power supplies. Alpine/Summit United Kingdom 10 A service receptacle, BS 1363 for 110/220 VAC power supplies. Alpine/Summit International 10 A service receptacle, CEE 7/7 for 110/220 VAC power supplies. Alpine/Summit Australia 10 A service receptacle, AS 3112 for 110/220 VAC power supplies.
Site Preparation Uninterruptable Power Supply Requirements An uninterruptible power supply (UPS) is a device that sits between a power supply (such as a wall outlet) and a device (such as a switch) to prevent outages, sags, surges, and bad harmonics from adversely affecting the performance of the device. UPS Features A UPS traditionally can perform the following functions: • Absorb relatively small power surges. • Smooth out noisy power sources. • Continue to provide power to equipment during line sags.
Applicable Industry Standards UPS Transition Time Transition time is the time that is necessary for the UPS to transfer from utility power to full-load battery power. For Extreme Networks products, a transition time of less than 20 milliseconds is required for optimum performance. Applicable Industry Standards For more information, see the following ANSI/TIA/EIA standards: • ANSI/TIA/EIA-568-A—discusses the six subsystems of a structured cabling system.
Site Preparation Planning for Optical Budgets This section provides information about the optical and system budgets for GBICs and mini-GBICs. Optical Budgets for Mini-GBICs The total optical system budget for the SX mini-GBIC is 11.5 dB. Extreme Networks recommends that 3 dB of the total budget be reserved for losses induced by cable splices/connectors and operating margin. While 8.
Planning for Optical Budgets Figure 14: Total optical system budgets for long range GBICs ZX GBIC LX70 19.5 dB ZX GBIC Rev. 03 LX70 LX100 ZX GBIC Rev. 03 LX70 LX70 ZX GBIC ZX GBIC Rev. 03 ZX GBIC Rev. 03 22.0 dB 23.0 dB LX70 ZX GBIC 20.0 dB 21.5 dB LX100 23.0 dB LX100 25.0 dB 23.5 dB 19.0 dB ZX GBIC 30.0 dB ZX GBIC Rev. 03 29.0 dB 18.0 dB ZX GBIC 21.0 dB 24.5 dB LX100 27.0 dB 24.0 dB LX100 XM_041 The ZX mini-GBIC is equivalent to the ZX Rev 03 GBIC.
Site Preparation 56 Extreme Networks Consolidated "e" and "i" Series Hardware Installation Guide
Part 3 Summit Switch
3 Summit Switch Models This chapter includes the following information about the Summit family of switches: • Feature summary • Physical description • LED activity • Port types and configurations • Power configurations • Optional features for the Summit switches The Summit family of switches includes the following models: • Summit 200 “e” Series on page 60 — Summit 200-24 switch — Summit 200-24fx switch — Summit 200-24fx-TAA switch — Summit 200-48 switch • Summit 300 “e” Series on page 65 — Summit 300-24
Summit Switch Models Summit 200 “e” Series Switches The Summit 200 “e” series switches include the following switch models: • Summit 200-24 switch • Summit 200-24fx switch • Summit 200-24fx-TAA switch • Summit 200-48 switch NOTE The Summit 200-24fx-TAA switch is compliant with the Trade Agreements Act (TAA). Summit 200 “e” Series Switch Features The Summit 200 switches include the Summit 200-24, Summit 200-24fx, Summit 200-24fx-TAA, and Summit 200-48 switches.
Summit 200 “e” Series Switches — 1000BASE-ZX — 1000BASE-BX — 1000BASE-T UTP • Autoranging power supply that automatically adjusts to the supply voltage Summit 200 Series Switch Physical Description The 24-port versions of the Summit 200 series switch are the Summit 200-24 switch (Figure 15 and Figure 16) and the Summit 200-24fx and Summit 200-24fx-TAA switches (Figure 17 and Figure 18). The 48-port version is the Summit 200-48 (Figure 19 and Figure 20).
Summit Switch Models Figure 18: Summit 200-24fx and Summit 200-24fx-TAA switch rear view Power socket ES20024fx_001 Figure 19: Summit 200-48 switch front view 10/100 Mbps ports Mini-GBIC ports Console port 1000-baseT ports LC48001 Figure 20: Summit 200-48 switch rear view Power socket LC48002 All the ports on the Summit 200 series switch have associated port activity LEDs. In addition, three LEDs indicate status for the switch, fans, and power supply.
Summit 200 “e” Series Switches Summit 200 Switch LEDs Table 11 describes the LED activity for all three models of the Summit 200 switch. Table 11: Summit 200 switch LED activity Unit Status LED (MGMT LED) Color Indicates Green solid The Summit switch power-on self test (POST) is in progress. Green blinking The Summit switch is operating normally. Amber The Summit switch has failed its POST or an overheat condition is detected. Off There is no power.
Summit Switch Models Port Connections A Summit 200-24 or 200-48 switch has either 24 or 48 10BASE-T/100BASE-TX ports using RJ-45 connectors for communicating with end stations and other devices over 10/100Mbps Ethernet. A Summit 200-24fx/200-24fx-TAA switch has 24 100BASE-FX ports for communicating with end stations or other devices over 100Mbps Ethernet. The switch also has four Gigabit Ethernet uplink ports, of which only two can be used at any one time.
Summit 300 “e” Series Switches NOTE When configuring the Summit 200-48 switch, all ports specified as mirrored ports and mirroring port, or ACL ingress ports and egress port, must belong to the same port group. Port group 1 consists of ports 1 through 24 and port 49; port group 2 consists of ports 25 through 48 and port 50.
Summit Switch Models Summit 300 Features The Summit 300 series switch supports wireless and Power over Ethernet (PoE) networks. These switches provide 24 or 48 autosensing 10BASE-T/100BASE-TX ports using RJ-45 connectors. The Summit 300 series switches also provide either two or four uplink ports implemented as combination ports that pair a copper port using RJ-45 connectors with an optical port using LC connectors. The copper port operates as an autonegotiating 10/100/1000BASE-T port.
Summit 300 “e” Series Switches Figure 21 shows the front of the Summit 300-24 switch. Figure 21: Summit 300-24 switch front view 10/100 Mbps ports Management LED Fan LED PSU LEDs Mini-GBIC port status LEDs 10/100/1000-baseT ports Console port Mini-GBIC/ 1000-baseX ports RVN24001A The front panel of the Summit 300-24 switch includes LEDs, a console port, fixed 10/100 Mbps ports, and high-speed uplink ports implemented as either a 10/100/1000 Mbps copper port or an installed 1000-BASEx mini-GBIC.
Summit Switch Models Table 12: Summit 300-24 switch LED activity Unit Status LED (MGMT LED) Color Indicates Green, solid The Summit switch POST is in progress. Green, blinking The Summit switch is operating normally. Amber, blinking The Summit switch has failed its POST or an overheat condition is detected. Off There is no power. Color Indicates Green, solid All fans are operating normally. Amber, blinking One or more fans has failed. The switch continues to operate unless over-heating occurs.
Summit 300 “e” Series Switches Table 12: Summit 300-24 switch LED activity (Continued) Fiber Port Status LEDs (Ports 25—26) Color Indicates Green Link is present; port is enabled. Green blinking Link is present, port is enabled, and there is activity on the port. Off Link is not present, port is disabled, or non-supported GBIC is installed on the port. The RJ-45 port is being used for the uplink.
Summit Switch Models Redundant Power Supply Summit 300-24 switch software is responsible for managing overall power consumption to ensure that it does not attempt to deliver more power than is available. The Summit 300-24 has sufficient power budget to provide full 15.4 watts power on all 24 ports simultaneously. The Extreme Networks External Power Supply 45019 (EPS-LD) is an optional external power supply that provides redundant power for the Summit 300-24 switch.
Summit 300 “e” Series Switches Figure 24: Summit 300-48 switch rear view Power switch PSU-B PSU-A Power socket LB48002B The rear panel of the Summit 300-48 switch provides the AC power connector and power switch for each installed power supply. Do not turn on power to the switch until instructed in the installation procedures. The Summit 300-48 switch automatically adjusts to the supply voltage. The power supply operates down to 90 V.
Summit Switch Models Table 13: Summit 300-48 switch LED activity (Continued) Power Supply Status LEDs LED Color Indicates OUT Solid Green The output voltages are enabled and within specification. Off There is a fault on at least one output voltage or voltages are out of specification. Solid Amber The fan failed or there is an over temperature condition. Off The fan is operating normally and operating temperature is within limit.
Summit 300 “e” Series Switches Ports 1 through 48 are 10/100 ports with RJ45 connectors. Full-Duplex. The Summit 300-48 switch provides full-duplex support for all ports. Full-duplex allows frames to be transmitted and received simultaneously and, in effect, doubles the bandwidth available on a link. All 10/100 Mbps ports on the Summit 300-48 switch autonegotiate for half- or full-duplex operation.
Summit Switch Models Figure 25: Power supply LEDs LB48023 Table 14: Summit 300-48 power supply LED activity Condition IN LED Indication TEMP LED Indication OUT LED Indication Normal Green Off Green Supply Inhibited or overloaded Green Off Off Input AC Low or Missing Off Off Off Fan Failure or Over Temperature Green Amber Off Summit 300 Automatic Failover The Summit 300 switches provide dual-media support on Gigabit Ethernet ports.
Summit 400 “e” Series Switches is another failure or a user changes the assignment using the CLI. To change the uplink failover assignment, use the following command: configure ports preferred-medium {copper} | {fiber} |[force] The default preferred-medium is fiber. If you use the force option, it disables automatic failover. If you force the preferred-medium to fiber and the fiber link goes away, the copper link is not used, even if available.
Summit Switch Models Summit 400-24 Physical Description Figure 26 shows the front of the Summit 400-24t switch. Figure 27 shows the front of the Summit 400-24p switch. Figure 26: Summit 400-24t switch front view Stack Number LED Solid ON - Link Blinking - Activity MGMT STACK NO.
Summit 400 “e” Series Switches Figure 29: Summit 400-24p switch rear view External power supply connection 10 Gigabit stacking ports Power socket ES4K034A The rear panel includes: • Two high-performance stacking ports. These ports are used to interconnect the switches in a Summit switch stacked configuration. They require a stacking cable that is available from Extreme Networks. • Vents for the internal power supply fan. • Connector for an optional external power supply. • AC power socket.
Summit Switch Models Table 15 describes the activity of the LEDs on the Summit 400-24 switch. Table 15: Summit 400-24 switch LED activity Unit Status LED (MGMT LED) Color Indicates Green, slow blinking The Summit switch is operating normally. Green, fast blinking The Summit switch POST is in progress. Green, solid POST passed; ExtremeWare is booting. Amber, blinking The Summit switch has failed its POST or an overheat condition is detected. Off The Summit switch has no power.
Summit 400 “e” Series Switches Table 15: Summit 400-24 switch LED activity Port Status LEDs (Ports 1–24)—Summit 400-24p switch Color Indicates Green, solid Link is present and port is enabled; non-powered device. Green, fast blinking Port is enabled; link is up, device non-powered and activity on the port. Amber, solid Link is present and port is enabled; device powered. Amber, slow blinking Link is down or port is disabled; device powered.
Summit Switch Models The switch provides full-duplex support for all ports. Full-duplex allows frames to be transmitted and received simultaneously and, in effect, doubles the bandwidth available on a link. All 10/100/1000 Mbps ports on the Summit 400-24 switch autonegotiate for half- or full-duplex operation. Uplink Redundancy The four fiber ports and the last four of the 10/100/1000BASE-T ports are designed as combination ports for uplink redundancy.
Summit 400 “e” Series Switches same time. For more information about cabling and configuring this feature, see “Uplink Redundancy” on page 85. The back panel of the Summit 400-48t switch provides an option slot for two modular 10-gigabit uplink ports. In addition, two high-performance dedicated stacking connectors allow you to interconnect Summit 400-series switches in a stacked configuration.
Summit Switch Models Figure 32: Summit 400-48t switch rear view External power supply connection Compact flash Mgmt port 10 Gigabit uplink option 10 Gigabit stacking ports (reserved for future) Power socket ES4K018B The rear panel includes: • An option slot for the dual 10 Gigabit uplinks • The management port (see “Management Port” on page 84) • A compact flash slot This slot is currently not supported but is reserved for future use.
Summit 400 “e” Series Switches • Stack A column of four LEDs (Figure 33) indicates the unit number of the switch in a stack. • 10/100/1000BASE-T port status Each of the 48 copper 10/100/1000BASE-T ports has an associated LED located above the port. • Fiber port status Each of the four optical fiber ports has an associated LED located above the port. Figure 33: Stack LEDs on the Summit 400-48t switch ES4K045 Table 16 describes the activity of the front-panel LEDs on the Summit 400-48t switch.
Summit Switch Models Table 16: Summit 400-48t switch LED activity Stack LEDs Two columns of numbers next to the LEDs represent the stack unit number. The state of the LED, either solid or blinking, indicates either the left column or the right column. Color Indicates Green, solid Top LED—This switch is the master unit in the stack (number 1). Any other LED—This switch is stack member 2, 3, or 4, indicated by the number next to the LED.
Summit 400 “e” Series Switches Do not assign an in-band IP address to the management port VLAN. The management port VLAN is an out-of-band VLAN, so if it is assigned an in-band IP address (an address where the source and destination are in the same subnet), the switch treats it as a normal VLAN and attempts to route traffic through it. Extreme Networks does not recommend that you use the management port to route traffic to any front panel port on the switch.
Summit Switch Models Summit 400 “e” Series Optional Features Extreme Networks offers optional hardware products that extend the capabilities of the Summit 400 switch. These products are additional offerings and are available from your sales representative. Before installing any hardware option, be sure to check the Installation Notes provided with the device to determine the latest installation process or limitations.
Summit “i” Series Switches Summit “i” Series Switches The Summit “i” series switches include the following models: • Summit1i • Summit5i • Summit7i • Summit48i • Summit48si Memory Requirements The “i” series Summit switch must have 128MB of DRAM in order to support the features in ExtremeWare version 6.0 or later. To determine the memory size in your switch, use the following command: show memory For Summit switches running ExtremeWare 4.
Summit Switch Models Table 17 lists port configurations available on the different Summit “i” series switch models.
Summit1i Switch Figure 36: Front view of the Summit1i switch with 1000BASE-SX ports 1000 Mbps ports 1 1 2 3 4 5 6 7 2 3 4 Unit status LEDs 5 6 7 8 8 Port status LEDs Gigabit Ethernet ports SHG_S1SX The front panel of each Summit1i switch includes LEDs, six fixed 100/1000 Mbps or 1000 Mbps ports, and two unpopulated ports for installation of GBICs with SC connectors. Figure 37 shows the rear panel of both available Summit1i switch models.
Summit Switch Models • 1000BASE-LX70 • ZX GBIC • LX100 • UTP GBIC For more information about the supported GBIC types, see “GBIC Type and Hardware/Software Support” on page 23. For specifications of individual GBIC models, see “GBIC Specifications” on page 340. Power Sockets The Summit1i switch has built-in dual redundant power supplies. Each power supply has its own power socket.
Summit5i Switch Summit5i Switch The Summit5i switch is 2U high; it is available in three port configurations: • 12 autosensing 100BASE-TX/1000BASE-T ports with RJ-45 connectors and 4 1000BASE-X ports with SC connectors (Figure 38) • 12 1000BASE-SX ports with MT-RJ connectors and 4 1000BASE-X ports with SC connectors (Figure 39) • 12 1000BASE-LX ports with either MT-RJ or LC connectors (Figure 40 shows LC connectors) and 4 1000BASE-X ports with SC connectors (Figure 40) To determine the type of connectors o
Summit Switch Models Figure 40: Front view of the Summit5i switch with 1000BASE-LX ports 1000 Mbps ports 1 2 3 4 9 10 11 12 5 13 Port status LEDs Unit status LEDs 6 14 7 8 15 16 Gigabit Ethernet ports SHG_S5LX The front panel of each Summit5i switch includes LEDs, 12 fixed 100BASE-TX/1000BASE-T, 1000BASE-SX, or 1000BASE-LX ports, and 4 unpopulated ports for installation of GBICs with SC connectors. Figure 41 shows the rear view of the Summit5i switch.
Summit5i Switch GBIC Ports All three Summit5i switch models provide four unpopulated GBIC ports with SC connectors. You can use the following GBICs in the Summit5i switch: • 1000BASE-SX • 1000BASE-LX • 1000BASE-LX70 • ZX GBIC • LX100 • UTP GBIC For more information about the supported GBIC types, see “GBIC Type and Hardware/Software Support” on page 23. For specifications of individual GBIC models, see “GBIC Specifications” on page 340.
Summit Switch Models Ethernet Management Port Use the management port (10/100 Mbps Ethernet, RJ-45 connector) to plug an Ethernet cable directly from your laptop into the switch for out-of-band management. This port provides direct access into the switch and allows you to view and locally manage the switch configurations. Console Port Use the console port (9-pin, “D” type connector) for local management. This port allows you to attach a terminal and access the CLI through a serial connection.
Summit7i Switch Figure 43: Front view of the Summit7i switch with 1000BASE-SX ports Console port Module status LEDs Reset button Management port Modem port Management port LED PCMCIA slot PSU A PSU B MGMT LINK/ACTIVITY CONSOLE 1 2 3 4 5 6 7 8 MODEM PCMCIA 10BASE-T/100BASE-TX MGMT PORT 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 9 10 11 12 13 14 15 16 AMBER GREEN FLASHING GREEN = ACTIVITY = LINK OK = DISABLED 17 18 19 20 21 22 2
Summit Switch Models LEDs Each Summit7i model has the following LEDs: • Unit status • Management • Port status • Port speed • Management port For information about the LEDs and their activity on the Summit7i switch, see “Summit1i, Summit5i, Summit7i, and Summit48i Switch LEDs” on page 97. GBIC Ports Both Summit7i switch models provide four unpopulated GBIC ports with SC connectors.
Summit1i, Summit5i, Summit7i, and Summit48i Switch LEDs See “Management Ports” in Chapter 1 for more information about the management port. PCMCIA Slot The PCMCIA slot is reserved for future use. Power Sockets The Summit7i switch has built-in dual redundant power supplies. Each power supply has its own power socket. When the second power supply is connected to a second independent power source, both provide a redundant, load-shared power source to the Summit7i switch.
Summit Switch Models Table 18: Switch LED activity for the Summit1i, Summit5i, Summit7i, and Summit48i MGMT Green (solid) Power On Self Test (POST) or Diagnostics. PMS in progress. Green (blinking slowly) The switch is operating normally. Green (blinking quickly) Software download is in progress. Amber The switch has failed its POST or is experiencing an overheat or fan failure. Green Link is present; port is enabled. Amber Frames are being transmitted/received on this port.
Summit48i Switch Figure 46: Rear view of the Summit48i switch AC Connectors Label Console port Reset button S48i_rr The rear panel of the Summit48i switch includes AC power sockets, a system label, a reset button, and a serial console port. LEDs The Summit48i switch has the following LEDs: • Unit status • Management • Port status • Port speed For information about the LEDs and their activity on the Summit48i switch, see “Summit1i, Summit5i, Summit7i, and Summit48i Switch LEDs” on page 97.
Summit Switch Models power supplies fails, the second power supply provides all power needs, ensuring uninterrupted network operation. The switch also sends: • A message to the syslog to indicate which power supply failed • An SNMP trap to your network management station NOTE Only trained personnel should provide service for Summit48i switch power supplies. Label The label on the rear of the Summit48i switch displays important information about the switch.
Summit48si Switch Figure 47: Front view of the Summit48si switch Mini-GBIC port status LEDs Console port 10/100 Mbps ports with status LEDs Mini-GBIC ports 48si_fr The front panel of the Summit48si switch includes LEDs, 48 fixed ports, 2 unpopulated ports for installing mini-GBICs with LC connectors, and a serial console port. Figure 48 shows a close-up view of the Summit48si LEDs and ports.
Summit Switch Models NOTE The label that indicates country and safety certifications for the Summit48si switch is located on the bottom of the switch (Figure 50). Figure 50: System labels on the Summit48si switch Label Label 48i1_btm LEDs The Summit48si switch has the following LEDs: • Management • Port status For information about the LEDs and their activity on the Summit48si switch, see “Summit48si Switch LEDs” on page 105.
Summit48si Switch Mini-GBIC Ports The Summit48si switch has two unpopulated ports that use Extreme mini-GBIC ports with LC connectors. You can use the following mini-GBICs in the Summit48si switch: • 1000BASE-SX mini-GBIC • 1000BASE-LX mini-GBIC • ZX mini-GBIC • 1000BASE-BU mini-GBIC Use only Extreme Networks-certified mini-GBICs, available from Extreme Networks, in the mini-GBIC port in the switch.
Summit Switch Models Figure 51: Summit48si AC power supply PSU status LEDs Power socket Serial Number: 15603 450070-00-XX 100-240 V 3.0 A Max. 50/60 Hz 48si_psu Figure 52: Summit48si DC power supply If one power supply fails, or if source power to one of the power supplies fails, the second power supply takes over, ensuring uninterrupted network operation.
Summit48si Switch Summit48si Switch LEDs The Summit 48si switch has LEDs on the front panel that indicate switch operating status and port status. The switch power supplies at the back of the switch also have LEDS. Table 19 describes the front-panel LEDs on the Summit48si switches. Table 19: Switch LED activity for the Summit48si switch LED Color Indicates Green The switch is operating normally. Unit Status LEDs MGMT Power On Self Test (POST) or software download in progress.
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4 Summit Switch Installation This chapter describes how to install Summit switches and optional equipment. You can mount the Summit switch in a rack or place it free-standing on a tabletop.
Summit Switch Installation 5 For a stacked configuration, enable stacking on each switch and connect the stacking cables as described on page 112.
Mounting the Switch in a Rack Figure 53: Helper bracket for the Summit7i switch BDbrackt 2 Place the switch shipping box upright on a secure, flat surface, with the front of the switch facing you. 3 Remove the switch from the box, and remove the packing material from the switch. 4 Remove the existing screws from the sides of the case (retain the screws for Step 6). 5 Place a mounting bracket over the mounting holes on one side of the unit.
Summit Switch Installation 6 Insert and tighten the screws using a suitable screwdriver, as shown in Figure 54 and Figure 55.
Mounting the Switch in a Rack Figure 55: Fitting the mounting bracket into the Summit48si switch Alternate long bracket 48si_rack 7 Repeat steps 4 through 6 for the other side of the switch. 8 Insert the switch into the rack, and ensure that ventilation holes are not obstructed. If you are installing a Summit7i switch, you need a minimum of two people to help lift and place the switch on the helper bracket, and slowly guide the switch into the rack.
Summit Switch Installation Placing the Switch on a Table or Shelf You can place up to four Summit switches on top of one another. The Summit switch comes with four self-adhesive rubber pads. Apply the pads to the underside of each switch, placing a pad at each marked corner of the switch. Place the switches on top of one another, ensuring that the corners align.
Installing a Summit Stacked Configuration Figure 57: Typical Summit 200 and 300 stacked configuration EW75002 To install a stacked configuration: 1 Install the individual switches as described previously, either in a rack or on a table or shelf. 2 Power on the switches. 3 Connect to the console port of each switch and configure stacking for that switch. For information about configuring stacking operation, see the ExtremeWare Software User Guide and the ExtremeWare Command Reference Guide.
Summit Switch Installation Connecting Summit 400 Series Switches The dedicated stacking ports on the back of a Summit 400 series switch require a specific stacking cable that is available from Extreme Networks. To connect the stacking ports on two Summit 400 series switches, follow these steps: 1 Align the stacking cable connector with a stacking port on one switch. 2 Press the cable connector firmly into its mating connector until the cable connector is firmly seated.
Removing the Switch from a Rack Removing the Switch from a Rack To remove the Summit switch from a rack, you need the following tools, equipment, and resources: • Helper bracket (provided with the Summit7i switch) • A minimum of four appropriate screws to secure the helper bracket (not provided) • # 1 Phillips screwdriver • If you have a Summit7i switch, a minimum of two people to help remove the switch from the rack To remove the Summit switch from a standard 19-inch (48.
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5 Installing and Connecting Summit Power Supplies The Summit switch models are shipped with internal power supplies that supply all the power needed for most switch operation. To provide full power support for PoE operation, you can connect external redundant power supplies to the Summit 300-24, the Summit 400-24p, the Summit 400-24t, and the Summit 400-48t. The Summit 300-48 switch is shipped with one installed 600-Watt power supply.
Installing and Connecting Summit Power Supplies Installing or Removing an External Power Supply 45019 (EPS-LD) The Extreme Networks External Power Supply 45019 (EPS-LD) provides additional power to switches that support Power over Ethernet (PoE), such as the Summit 300-24 and Summit 400-24p. The EPS-LD provides 465 W total power with 375 W dedicated for PoE applications. When attached to the Summit 300-24 or Summit 400-24p, the EPS-LD acts as a redundant power supply.
Installing or Removing an External Power Supply 45019 (EPS-LD) To rack mount each EPS-LD unit: 1 Place the EPS-LD unit upright on a hard flat surface, with the side you want to face to the front of the switch toward you. 2 Remove the mounting bracket kit (including screws) from the packaging. 3 Locate a mounting bracket over the mounting holes on one side of the unit. 4 Insert the screws as shown in Figure 58, and fully tighten the screws with a #1 Phillips screwdriver.
Installing and Connecting Summit Power Supplies To connect the EPS-LD cable: 1 Connect the keyed end of the EPS-LD cable to the power supply unit. See Figure 60 to locate the connectors on the EPS-LD unit and on the switch. 2 Align and tighten the captive retaining screws on the connector. 3 Connect the other end of the EPS-LD cable to the Extreme switch. The connector fits in only one direction.
Installing and Removing the Internal 600 Watt AC Power Supply (15412) Table 23: LED status for EPS-LD Power LED Power LED Indicates Green, solid The external power supply is operating normally. Off The external power supply is not connected. Removing an EPS-LD unit To remove an EPS-LD unit: 1 Disconnect the AC power by removing the plug from the wall. 2 Disconnect the AC power cord from the EPS-LD unit. 3 Disconnect the cable between the Extreme switch and the EPS-LD unit.
Installing and Connecting Summit Power Supplies Installing an Internal 600-Watt Power Supply The shipping container for the internal power supply contains the following items: • One 600-watt power supply for the Summit 300-48 • Mounting hardware, including screws • One AC power cable for use in North America NOTE If you are using the Summit 300-48 outside North America, the input power cord must have an IEC60320-C13 connector and the appropriate power input plug for the country in which you are operating.
Installing and Removing the Internal 600 Watt AC Power Supply (15412) Removing an Internal Power Supply To remove an internal Summit 300-48 power supply: 1 Turn off the power supply by setting the power switch to the OFF position. 2 Disconnect the power cable from the power source 3 If a power cable retaining bracket is installed, remove it as described in “Disconnecting a Power Cable with an Installed Cable Retaining Bracket” on page 132. 4 Disconnect the power cable from the power supply.
Installing and Connecting Summit Power Supplies Figure 62: Removing the Summit 300-48 power supply LB48020A 7 If you are not going to install a replacement power supply, cover the power supply bay with the blank cover plate that was originally supplied with the switch. If you are replacing a power supply, follow the installation instructions in “Installing an Internal 600-Watt Power Supply” on page 122.
Installing an External Power System for a Summit 400 Switch Rack Mounting the EPS-T CAUTION Do not use the rack mount kits to suspend the EPS-T from under a table or desk, or to attach the EPS-T to a wall. WARNING! The EPS-160, the EPS-T, and rack must be connected to protective earth ground before attaching to another switch. To rack mount the EPS-T: 1 Place the EPS-T upright on a hard flat surface, with the front facing you. 2 Remove the mounting bracket kit (including screws) from the packaging.
Installing and Connecting Summit Power Supplies Figure 64: Redundant Power Cable with Key ES4K027 Figure 65: Redundant Power Connection Slot for plug To AC Keyed end of redundant power cable Redundant power cable ES4K021A 8 Connect the other end of each EPS-160 power supply cable to the Extreme switch. This connector end can only be inserted into the switch with the end marked TOP facing up. 9 Connect the supplied AC cable to the AC supply for each unit.
Installing and Removing Summit48si AC Power Supplies 3 Remove the redundant power cable from the EPS-160. 4 Loosen the thumbscrews on the front of the tray and slide the EPS out of the EPS-T. Installing and Removing Summit48si AC Power Supplies This section applies only to the Summit48si switch AC power supplies. The Summit48si comes with a minimum of one power supply preinstalled at the factory.
Installing and Connecting Summit Power Supplies WARNING! Do not plug in the power cable into the power supply unless the power supply is installed in the switch. 5 Keep the faceplate and the power supply packaging for future use. Removing a Summit 48si AC Power Supply To remove a Summit48si AC power supply: 1 Remove the power cable from the wall outlet and then from the switch. CAUTION Shock hazard. 2 Use a #2 Phillips screwdriver to unscrew the two retaining screws, as shown in Figure 66.
Installing the AC Power Cable Retaining Bracket Installing the AC Power Cable Retaining Bracket The AC power cables for Summit switches can be attached to the power supply using power cable retaining brackets. The retaining brackets make it less likely that a power supply cable will be inadvertently knocked loose from a power supply. To install a power cable retaining bracket: 1 On a Summit switch with a power switch, turn off the power supply by setting the power switch to the OFF position.
Installing and Connecting Summit Power Supplies Figure 69: Attaching the retaining bracket using spacers Spacers Bracket screws LB48024 Figure 70: Attaching the retaining bracket to the power socket Retaining bracket screw SH_001 6 Attach the retaining bracket to the power supply in one of the following ways: • If you removed retaining screws from the power socket, use those screws to attach the • For power supplies with permanently attached standoffs, attach the retaining bracket to the power suppl
Installing the AC Power Cable Retaining Bracket If your switch has two power supplies, align the retaining brackets so that the retaining bracket screws do not interfere with each other. Figure 71 and Figure 72 show typical bracket orientations.
Installing and Connecting Summit Power Supplies Disconnecting a Power Cable with an Installed Cable Retaining Bracket If a power cable retaining bracket is installed, you must loosen the retaining bracket from the cable before you can disconnect the power cable. To disconnect a power cable when a cable retaining bracket is installed: 1 On a Summit switch with a power switch, turn off the power supply by setting the power switch to the OFF position. 2 Disconnect the power cable from the power source.
Installing the Summit48si Switch DC Power Supply DC input power is provided through a three-pin connector on the front panel. Before installing or removing a Summit48si DC power supply, read the following warnings. WARNING! Before you can attach the keyed connector to the DC power supply, the wiring harness (supplied) must be hard-wired to the DC source by a qualified, licensed electrician.
Installing and Connecting Summit Power Supplies 5 Place both hands on each side of the power supply to slowly and evenly slide the power supply into the bay. 6 Secure the power supply by tightening the screw on either side of the front panel by using a #2 Phillips screwdriver. 7 Leave the ESD strap permanently connected to the chassis so that it is always available when you need to handle ESD-sensitive components. To install an additional power supply, repeat steps 1 through 7.
Installing the Summit48si Switch DC Power Supply NOTE Each wire on the harness has been properly marked for proper attachment to the DC power source. Leave these labels on each lead wire for future reference. Attaching the Connector to the DC Power Supply DC input power is provided through a three-pin connector on the front panel of the DC power supply. To attach the cable to the Summit48si DC power supply: 1 Plug the three-wire cable harness onto the connector on the front of the power supply.
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Part 4 Alpine Switch
6 Alpine 3800 Series Switch Models The Alpine 3800 series switch is a chassis-based, Ethernet service provisioning switch designed for edge and aggregation applications. The Alpine 3800 series switch is flexible and scalable, making it easy for you to meet the changing requirements of your network. There are three models in the Alpine 3800 series: the Alpine 3808 switch, the Alpine 3804 switch, and the Alpine 3802 switch.
Alpine 3800 Series Switch Models • Console (RS-232) port for accessing the CLI • Dedicated 10BASE-T/100BASE-TX port for out-of-band management using CLI, ExtremeWare Vista, or SNMP Port Connections The Alpine 3800 series switches support different port configurations on the different Alpine I/O modules, as described in Table 24. CAUTION Modules that use SX, LX, and LX70 interfaces contain Class 1 laser devices. Invisible laser radiation can occur when open. Avoid direct eye exposure to the beam.
Features The AC power supplies auto-sense for 110 VAC and 220 VAC power. The DC power supplies require -48 V DC nominal input line voltage. When two power supplies are present, the power is load-shared between the supplies for enhanced longevity. AC Power Supply Cords An AC power cord is not included with the Alpine AC power supply. To purchase an AC power cord, contact your local Extreme Networks Channel Account Manager or Sales Manager, or purchase a cord from your local supplier.
Alpine 3800 Series Switch Models Table 27: Alpine 3802 power supply LED LED Color Indicates PSU A, PSU B Green Normal operation Amber DC output failure Off PSU not present or not powered Fans The Alpine 3808 and 3804 switches have hot-swappable fan trays. The Alpine 3802 has built-in fans that are not designed to be replaced by customers. ExtremeWare monitors the fan trays in the Alpine 3800 series switches for failure and overheat conditions.
Alpine 3808 Switch Figure 75 shows the Alpine 3808 chassis populated with one required SMMi and eight I/O modules.
Alpine 3800 Series Switch Models Figure 76: Rear panel of the Alpine 3808 switch Label Grounding points 38_rear8-b The rear panel of the Alpine 3808 switch provides: • Chassis grounding points • System label, which includes: — Chassis serial number — Ethernet MAC address of the switch — Symbols of safety certification Alpine 3804 Switch The Alpine 3804 switch consists of the following components: • One 5-slot chassis, 6 U high, with backplane • Four I/O module slots, labeled slots 1 through 4 • One SM
Alpine 3804 Switch The Alpine 3804 switch can support up to the following number of ports and types of port configurations: • 128 switched 10BASE-T/100BASE-TX Ethernet ports • 96 switched 100BASE-FX Fast Ethernet ports • 16 switched Gigabit Ethernet ports • 64 switched 1000BASE-X oversubscribed ports • 64 switched 10/100/1000BASE-T oversubscribed ports • 16 switched T1 ports • 16 switched E1 ports • 32 switched Ethernet over VDSL ports • 4 switched T3 ports Figure 77 shows the Alpine 3804 chassis populated
Alpine 3800 Series Switch Models Figure 78: Rear panel of the Alpine 3804 switch Label Grounding points Blank for second power supply DC OK DC OK WHEN INSTALLED IN 3804 THIS WAY UP Hz 50 60 A 13 6 Hz 50 60 V 100-120 200-240 V 100-120 200-240 Power supply A 13 6 SLIDE TO REMOVE WHEN INSTALLED IN 3808 THIS WAY UP SERVICE 45012 38_rear4-b The rear panel of the Alpine 3804 switch provides: • Access to the power supply • Chassis grounding points • System label, which includes: — Chassis serial n
Alpine 3802 Switch The Alpine 3802 switch can support up to the following number of ports and types of port configurations: • 64 switched 10BASE-T/100BASE-TX Ethernet ports • 48 switched 100BASE-FX Fast Ethernet ports • 8 switched Gigabit Ethernet ports • 16 switched 1000BASE-X oversubscribed ports • 16 switched 10/100/1000BASE-T oversubscribed ports • 12 switched T1 ports • 12 switched E1 ports • 16 switched Ethernet over VDSL ports • 3 switched T3 ports Figure 79 shows the Alpine 3802 chassis populated w
Alpine 3800 Series Switch Models NOTE Slot 3 in the Alpine 3802 accepts only Alpine Access I/O modules (silver stripe). You cannot insert an Alpine Ethernet I/O module (green stripe) into slot 3. For more information about this command, see the ExtremeWare Command Reference Guide and the ExtremeWare Software User Guide. Alpine 3802 Switch LEDs The Alpine 3802 switch has an integrated switch management module with LEDs to indicate switch operating status.
Alpine 3802 Switch Connect each power supply to different, independent power sources. If a power source fails, it will affect only the power supply to which it is connected. If all switch power supplies are connected to a single power source, the entire switch is vulnerable to a power source failure. NOTE Do not attempt to repair a failed power supply; power supplies are not user-removable. Alpine 3802 switch power supplies must be installed or removed only by trained service personnel.
Alpine 3800 Series Switch Models The rear panel of the Alpine 3802 DC switch provides: • Chassis grounding points • System label that includes: — Chassis serial number — Ethernet MAC address of the switch — Symbols of safety certification • On/Off switches • Input terminal blocks Figure 82 shows a close-up of the Alpine 3802 DC connector Figure 82: DC connector on the Alpine 3802 DC switch 3802DC_dtl For centralized DC power connections, install only in a restricted access area.
7 Alpine 3800 Series Chassis Installation This chapter includes the following topics: • Installation Summary on page 151 • Safety Information on page 151 • Installing the Chassis in a Rack on page 152 • Grounding the Alpine 3800 Series Chassis on page 155 • Removing the Chassis on page 157 NOTE Read the information in this chapter thoroughly before you attempt to install or remove any Alpine chassis.
Alpine 3800 Series Chassis Installation aware of the hazards to which they are exposed in performing a task. They are aware of measures to minimize the danger to themselves or other persons. NOTE Electronic components are sensitive to static electricity. ESD originating from you or from objects around you can damage these components. Exercise every possible precaution to prevent ESD when working around printed circuit assemblies.
Installing the Chassis in a Rack • # 1 Phillips screwdriver • A minimum of two people to help install the chassis in the rack To mount the chassis in a rack: 1 Attach the helper bracket in the lowest available position in the rack using four appropriate screws (not provided), as shown in Figure 83. Figure 83: Helper bracket for installing the Alpine 3800 series chassis BDbrackt 2 Place the box containing the chassis upright on a secure flat surface with the front of the box facing you.
Alpine 3800 Series Chassis Installation Figure 84: Alpine 3808 chassis with eight mounting screws Helper bracket 38_rack8 154 Extreme Networks Consolidated "e" and "i" Series Hardware Installation Guide
Grounding the Alpine 3800 Series Chassis Figure 85: Alpine 3804 chassis with eight mounting screws Helper bracket 38_rack4 Figure 86: Alpine 3802 chassis with four mounting screws Helper bracket 3802rack 6 After you secure the chassis, remove the helper bracket. Store it for future use, in case you need to remove the chassis. Grounding the Alpine 3800 Series Chassis The Alpine 3802 chassis has a pair of grounding studs on the back for attaching a two-hole ground lug using nuts and lockwashers.
Alpine 3800 Series Chassis Installation Grounding the Alpine 3802 Chassis To ground the Alpine 3802 chassis in accordance with NEBS standards, gather the following materials: • Two zinc-plated steel lockwashers • Two zinc-plated steel nuts • One Panduit-style, standard two-hole barrel, copper compression lug • AWG, high-strand-count copper wire cable, appropriate for your chassis — 8 AWG for the Alpine 3808 — 10 AWG for the Alpine 3804 — 14 AWG for the Alpine 3802 • Flathead screwdriver To ground the chass
Removing the Chassis To ground the chassis: 1 Identify the grounding points on the back of the chassis. 2 Strip 0.5-inch (1.2-cm) of insulation from the stranded copper wire cable. 3 Insert the stripped wire into the cable lug. CAUTION Be sure that no copper is visible between the lug and the cable insulation. 4 Crimp the lug onto the cable according to the manufacturer’s specifications. 5 Insert the screws through the lug and into the grounding point on the back of the chassis (see Figure 87).
Alpine 3800 Series Chassis Installation 3 To reduce weight and prevent possible equipment damage, use a # 1 Phillips screwdriver to remove the following components: • Power supply, SMMi, and I/O modules from the Alpine 3808 and Alpine 3804 • I/O modules from the Alpine 3802 For information about removing power supplies, see Chapter 8. For information about removing the SMMi, see Chapter 9. For information about removing I/O modules, see Chapter 10. 4 Unscrew the chassis from the rack.
8 Installing and Connecting Alpine 3800 Series Switch Power Supplies Alpine 3800 series switches accommodate either AC or DC power supplies. For the Alpine 3808 and 3804 switches, the power supplies are inserted into the chassis after you install the chassis in the equipment rack. The Alpine 3802 switch has factory-installed power supplies. In addition to the internal power supplies, Alpine 3800 series switches can also have an external power supply, the EPD-LD.
Installing and Connecting Alpine 3800 Series Switch Power Supplies Table 30: Supported power supplies for the Alpine 3800 series switch Switch Model AC power supply DC power supply Hot-swappable Alpine 38081 Up to two AC power supplies can be installed. Up to two DC power supplies can be installed. Yes Alpine 3804 Up to two AC power supplies can be installed. Up to two DC power supplies can be installed. Yes Alpine 3802 Up to two AC power supplies can be installed.
Installing an Alpine 3808 or Alpine 3804 AC Power Supply 3 Prepare the power supply for installation: • Use the text on the front of the power supply to ensure that it is oriented correctly for either the Alpine 3808 or Alpine 3804. • Move the safety latch to the “remove” position. • Open the ejector/injector lever, as shown in Figure 88 and Figure 89.
Installing and Connecting Alpine 3800 Series Switch Power Supplies Figure 89: AC power supply for the Alpine 3804 switch Safety latch Ejector/ injector lever Handle DC OK DC OK WHEN INSTALLED IN 3804 THIS WAY UP Hz 50 60 A 13 6 WHEN INSTALLED IN 3808 THIS WAY UP Hz 50 60 V 100-120 200-240 V 100-120 200-240 A 13 6 SLIDE TO REMOVE 45012 SERVICE 38_pwrx4 CAUTION When you install the power supply, make sure the ejector/injector lever is open. Do not slam the power supply into the backplane.
Installing an Alpine 3808 or Alpine 3804 DC Power Supply Installing an Alpine 3808 or Alpine 3804 DC Power Supply To install an Alpine 3808 or Alpine 3804 DC power supply, complete the following tasks: • Select the cabling. • Install the DC power supply. • Attach the cables and supply power. • Verify a successful installation. For centralized DC power connections, install only in a restricted access area.
Installing and Connecting Alpine 3800 Series Switch Power Supplies CAUTION Make sure that no copper is visible between the lug and the cable insulation. Installing the Power Supply This section describes how to install a DC power supply for either the Alpine 3808 switch or the Alpine 3804 switch. Complete the following tasks before installing power supplies: • Ground the rack (see “Protective Grounding for the Rack (Alpine and BlackDiamond Switches)” on page 40).
Installing an Alpine 3808 or Alpine 3804 DC Power Supply Figure 90: DC power supply for the Alpine 3808 switch Ejector/ injector lever On/off switch Handle Safety latch 45022 SERVICE WHEN INSTALLED IN 3808 THIS WAY UP ON -48V OFF RTN SLIDE TO REMOVE ESD wrist strap connector WHEN INSTALLED IN 3804 THIS WAY UP 45022 DC OK DC OK 38_DCPS8 Figure 91: DC power supply for the Alpine 3804 switch On/off switch Ejector/ injector lever Handle DC OK Safety latch 45022 DC OK WHEN INSTALLED IN
Installing and Connecting Alpine 3800 Series Switch Power Supplies CAUTION Do not slam the power supply into the backplane. This or other excessive force can cause damage and may possibly require the return of the chassis. 5 Place one hand on each side of the power supply to slowly and evenly slide the power supply into the bay.
Supplying Power to the Alpine 3802 DC Power Supply Figure 93: Alpine 3804 DC power supply with cables 45022 WHEN IN RTN OFF -48V ON 45022 SLIDE TO REMOVE 38_lugs4 5 Secure the cables using the lock washers and nuts. 6 Replace the plexiglas cover. 7 Turn on the DC supply at the wall breaker 8 Turn the on/off switch on the power supply to the on position. Leave the ESD strap permanently connected to the chassis so that it is always available when you need to handle ESD-sensitive components.
Installing and Connecting Alpine 3800 Series Switch Power Supplies Table 32: Source DC power specifications for the Alpine 3802 Characteristic Specification DC power cable size 14 AWG, high-strand count copper wire --40 Power - -70 VDC 7.5 A max Attaching the Cables and Supplying Power After you install the Alpine 3802, you must attach the cables that supply power to the chassis.
Removing the Alpine 3808 or Alpine 3804 AC Power Supply NOTE See Chapter 9, “Alpine 3800 Series Switch Management Module” for more information about switch management module LED activity and Chapter 10, “Alpine 3800 Series I/O Modules” for more information about I/O module LED activity.
Installing and Connecting Alpine 3800 Series Switch Power Supplies Removing the Alpine 3808 or Alpine 3804 DC Power Supply You need the following tools and equipment to remove the Alpine 3808 and the Alpine 3804 DC power supplies: • ESD-preventive wrist strap • # 2 Phillips screwdriver • Replacement DC power supply To remove a DC power supply from the Alpine 3808 or the Alpine 3804 switch: 1 Turn the power supply on/off switch to the off position. 2 Turn off the DC power at the source.
Installing the Alpine 3800 Series Switch External Power Supply 13 Leave the ESD strap permanently connected to the chassis so that it is always available when you need to handle ESD-sensitive components. Installing the Alpine 3800 Series Switch External Power Supply The Extreme Networks External Power Supply 45019 (EPS-LD) provides additional power to compatible Power over Ethernet (PoE) modules and other Extreme switches. The EPS-LD allows an attached FM-32Pi module to provide 334W to its ports.
Installing and Connecting Alpine 3800 Series Switch Power Supplies CAUTION Do not use the rack-mount kits to suspend the EPS-LD under a table or desk, or to attach the switch to a wall. To install the EPS-LD, you need the following tools and materials: • ES-preventive wrist strap • A #1 Phillips screwdriver To rack mount each EPS-LD unit: 1 Place the EPS-LD unit upright on a hard flat surface, with the side you want to face to the front of the switch toward you.
Installing the Alpine 3800 Series Switch External Power Supply Figure 95: EPS-LD connecting cable for connecting to PoE modules 3 1 14 7 4 2 8 1 EPSLD01 NOTE Only trained service personnel should install or remove the Extreme EPS-LD unit, in accordance with the installation instructions. Before servicing this system, please read the safety information provided in Appendix A. Not following these precautions can result in equipment damage or shock.
Installing and Connecting Alpine 3800 Series Switch Power Supplies Figure 97: Connecting an EPS-LD unit to a FM32Pi module Keyed end of redundant power cable Slot for key EPS-LD Redundant power cable To AC FM-32Pi EPSLD02 3 Connect the AC input power cable to the AC connector on the EPS-LD unit. CAUTION The EPS-LD unit does not have a switch for turning the unit on and off. You disconnect power to the EPS-LD unit by removing the plug from the electrical outlet.
9 Alpine 3800 Series Switch Management Module This chapter describes: • Installing SMMi Modules on page 177 • Replacing SMMi Modules on page 178 NOTE Read the information in this chapter thoroughly before you attempt to install or remove the Alpine Switch Management Module (SMMi). The Switch Management Module (SMMi) is responsible for upper-layer protocol processing and switch management functions in the Alpine 3808 and Alpine 3804 chassis. The SMMi can store two ExtremeWare software images (version 6.
Alpine 3800 Series Switch Management Module The SMMi has the following out-of-band management ports: • Console port—Used to connect a terminal and perform local management. • Management port—Used to connect an Ethernet cable directly from your laptop into the management port to view and locally manage the switch configurations. • Modem port —Used to connect a modem for remote access to the CLI. • PCMCIA slot—Reserved for future use.
Installing SMMi Modules Installing SMMi Modules You can insert the SMMi module at any time, without causing disruption of network services. You need the following tools and equipment to install the SMMi module: • ESD-preventive wrist strap • # 1 Phillips screwdriver To install the SMMi: 1 Locate the top, unnumbered slot of the chassis. This is where you install the SMMi. CAUTION You can install the SMMi only in the designated, top (orange) slot of the Alpine 3808 or 3804 chassis.
Alpine 3800 Series Switch Management Module 8 To close the ejector/injector levers, use both hands to push the levers toward the center of the module. Apply equal pressure to each lever. 9 Using a #2 Phillips screwdriver, tighten the two captive screws to secure the module to the chassis. NOTE Tighten the screws of this module before you insert additional modules. Otherwise, you might unseat modules that you have not secured. 10 Store the module packaging for future use.
Replacing SMMi Modules CAUTION To prevent ESD damage, handle the module by the metal panel edges only. Never touch the components on the PCB or pins on any of the connectors. 5 Immediately place the removed module into an antistatic bag to protect it from ESD damage and to prevent dust from collecting on the module connectors. 6 Install a replacement SMMi, following the installation procedure described on page 177.
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10 Alpine 3800 Series I/O Modules This chapter includes the following topics: • Configuring I/O Modules on page 181 • I/O module descriptions, starting on page 183 • Installing I/O Modules on page 204 • Removing I/O Modules on page 206 NOTE Read the information in this chapter thoroughly before you attempt to install or remove any Alpine I/O modules. Alpine I/O modules consist of a printed circuit board mounted on a metal panel that acts as the insertion vehicle in an Alpine 3800 series switch.
Alpine 3800 Series I/O Modules You can configure parameters of the I/O module after it is installed or you can pre-configure a slot for a certain type of module and configuration. The pre-configured information is applied to the module after it is inserted. If you pre-configure a slot for a specific module type, and then insert a different type of module, the module reverts to its default configuration.
Configuring I/O Modules GM-4Ti Module Figure 101 shows the GM-4Ti module. Figure 101: GM-4Ti module Module status LED Port speed LEDs 100/1000 Mbps ports 1 2 3 4 Port status LEDs 38_GM4T The GM-4Ti module has four Gigabit Ethernet ports. All Gigabit Ethernet ports on this module use standard RJ-45 connectors and autonegotiate for 100BASE-TX or 1000BASE-T. The default configuration of the GM-4Ti module is as follows. All ports: • Are added to the default VLAN as untagged.
Alpine 3800 Series I/O Modules GM-4Xi Module Figure 102 shows the GM-4Xi module. Figure 102: GM-4Xi module Module status LED Gigabit Ethernet ports 1 2 3 4 Port status LEDs 38_GM4X The GM-4Xi module has four GBIC-based Gigabit Ethernet ports. All Gigabit Ethernet ports on this module use standard GBIC connectors and support 1000BASE-SX, 1000BASE-LX, and 1000BASE-LX70. The default configuration of the GM-4Xi module is as follows. All ports: • Are added to the default VLAN as untagged.
Configuring I/O Modules NOTE For more information about the supported GBIC types, see “GBIC Specifications” on page 340. To ensure correct operation of the LX100 GBIC, make sure you run ExtremeWare 6.1.9 or later on your switch. LEDs The GM-4Xi module has the following LEDs: • Module status • Port status For information about the LEDs and their activity on the GM-4Xi module, see “I/O Module LEDs” on page 202.
Alpine 3800 Series I/O Modules GM-4Si Module Figure 103 shows the GM-4Si module. Figure 103: GM-4Si module Module status LED 1000 Mbps ports 1 2 3 4 Port status LEDs 38_GM4S The GM-4Si module has four Gigabit Ethernet ports using standard MT-RJ connectors. The GM-4Si module supports 1000BASE-SX only. The default configuration of the GM-4Si module is as follows. All ports: • Are added to the default VLAN as untagged. • Inherit the properties of the default VLAN (protocol type, VLANid, and so forth).
Configuring I/O Modules GM-16X3 Module Figure 104 shows the GM-16X3 module. Figure 104: GM-16X3 module Port status LEDs Mini-GBIC ports Module status LED GM16X3 The GM-16X3 module has 16 1000BASE-X ports using mini-GBIC (or small form factor pluggable (SFP)) slots. The GM-16X3 ports are oversubscribed 4:1 to the Alpine backplane. The module has four groups of four ports each. Each group multiplexes traffic into a single full-duplex gigabit link to the switch fabric.
Alpine 3800 Series I/O Modules Table 37 describes the media types and the associated maximum distances for the GM-16X3 module. Table 37: GM-16X3 media types and distances Mini-GBIC Type Media Type Maximum Distance (meters) 1000BASE-SX multimode fiber 550 1000BASE-LX single-mode fiber 10,000 1000BASE-ZX single-mode fiber 70,000 Each of the 16 ports in the GM-16X3 is capable of supporting up to a full gigabit of traffic with a maximum module throughput of 4 Gigabits to the Alpine backplane.
Configuring I/O Modules GM-16T3 Module Figure 105 shows the GM-16T3 module. Figure 105: GM-16T3 module Port status LEDs RJ-45 connector ports Module status LED GM16T3 The GM-16T3 module has 16 10/100/1000BASE-T ports using RJ-45 connectors that autonegotiate for 10BASE-T, 100BASE-T, or 1000BASE-T. The GM-16T3 ports are oversubscribed 4:1 to the Alpine backplane. The module has four groups of four ports each. Each group multiplexes traffic into a single full-duplex gigabit link to the switch fabric.
Alpine 3800 Series I/O Modules The GM-16T3 module supports distances of up to 100 meters over CAT 5 cabling. Each of the 16 ports in the GM-16T3 is capable of supporting up to a full gigabit of traffic with a maximum module throughput of 4 Gigabits to the Alpine backplane.
Configuring I/O Modules FM-24Ti Module Figure 106 shows the FM-24Ti module. Figure 106: FM-24Ti module Module status LED Port status LEDs 10/100 Mbps ports 38_FM24T The FM-24Ti module has 24 10/100 Mbps autonegotiating Ethernet ports, using standard RJ-21 connectors. The FM-24Ti module supports 10BASE-T and 100BASE-TX. To connect the ports, use a 180-degree male RJ-21 connector with a shielded PVC trunk cable. secure the connector to a maximum of 4 inch-pounds of torque.
Alpine 3800 Series I/O Modules For information about the LEDs and their activity on the FM-24Ti module, see “I/O Module LEDs” on page 202. Software Requirements The FM-24Ti module requires ExtremeWare version 6.1.7 or later and BootROM 6.5 or later on the switch.
Configuring I/O Modules FM-24SFi Module Figure 108 shows the FM-24SFi module. Figure 108: FM-24SFi module 1 2 3 4 5 6 7 Module status LED 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 100 Mbps ports with status LEDs 23 24 FM-24SFi The FM-24SFi module has 24 100 Mbps Ethernet ports, using standard MT-RJ connectors. The FM-24SFi module supports 100BASE-FX in single mode only. The default configuration of the FM-24SFi module is as follows.
Alpine 3800 Series I/O Modules FM-24MFi Module Figure 109 shows the FM-24MFi module. Figure 109: FM-24MFi module 1 2 3 4 5 6 7 Module status LED 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 100 Mbps ports with status LEDs 38_FM24F The FM-24MFi module has 24 100 Mbps Ethernet ports, using standard MT-RJ connectors. The FM-24MFi module supports 100BASE-FX in multi-mode only. The default configuration of the FM-24MFi module is as follows.
Configuring I/O Modules FM-32Ti Module Figure 110 shows the FM-32Ti module. Figure 110: FM-32Ti module Module status LED 1 4 5 8 9 12 13 16 17 20 21 24 25 28 29 32 Port status LEDs 10/100 Mbps ports 38_FM32T The FM-32Ti module has 32 10/100 Mpbs autonegotiating Ethernet ports using standard RJ-45 connectors. The FM-32Ti module supports autonegotitation of 10BASE-T and 100BASE-TX. The default configuration of the FM-32Ti module is as follows.
Alpine 3800 Series I/O Modules FM-32Pi Module Figure 111 shows the FM-32Pi module. Figure 111: FM-32Pi module Port status LEDs 10/100 Mbps ports EWUG001 The FM-32Pi module has 32 powered 10/100 Mpbs autonegotiating Ethernet ports using standard RJ-45 connectors. The FM-32Pi module supports autonegotitation of 10BASE-T and 100BASE-TX. The FM-32Pi module supports power over Ethernet powered ports according to the IEEE 802.3AF specification; this module is suitable for use in intra-building applications.
Configuring I/O Modules The default configuration of the FM-32Pi module is as follows. All ports: • Are added to the default VLAN as untagged. • Inherit the properties of the default VLAN (protocol type, VLANid, and so on). • Operate in autonegotiation mode. When connected to the EPS-LD external power supply, the FM-32Pi module can provide 334 W for PoE devices. The total power used by all connected PoE devices must not exceed 334 W.
Alpine 3800 Series I/O Modules FM-8Vi Module Figure 113 shows the FM-8Vi module. Figure 113: FM-8Vi module Module status LED Port status LEDs VDSL ports 38_FM8V The FM-8Vi module has eight 10 Mbps VDSL ports, using one standard RJ-21 connector, and eight internal loopback ports for ingress rate-shaping. The FM-8Vi module supports 10BASE-S. The default configuration of the FM-8Vi module is as follows. All ports: • Are added to the default VLAN as untagged.
Configuring I/O Modules Configuring the FM-8Vi. The VDSL connection from the FM-8Vi to the Mogul-100 is automatically established by the hardware on the two devices. There are no commands to configure this VDSL connection. However, the VDSL ports on the FM-8Vi connect to the Mogul-100 in such a way that the Ethernet port on the Mogul-100 behaves as though it is located on the Alpine switch. When you configure a port on the FM-8Vi, you are configuring the Ethernet port on the Mogul-100.
Alpine 3800 Series I/O Modules WM-4T1i Module Figure 114 shows the WM-4T1i module. Figure 114: WM-4T1i module Port status LEDs Module status LEDs 10/100 Mbps ports T1 ports 38_WM4T1 The WM-4T1i module has four T1 ports, using RJ-48 connectors, and two 10/100 Mbps autonegotiating Ethernet ports, using standard RJ-45 connectors. The WM-4T1i also has eight internal loopback ports that allow you to configure bi-directional rate-limiting without tying up any of the external ports for ingress rate shaping.
Configuring I/O Modules WM-4E1i Module Figure 115 shows the WM-4E1i module. Figure 115: WM-4E1i module Port status LEDs Module status LEDs 10/100 Mbps ports E1 ports 38_WM4E1 The WM-4E1i module has four E1 ports, using RJ-48 connectors, and two 10/100 Mbps autonegotiating Ethernet ports, using standard RJ-45 connectors. The WM-4E1i also has eight internal loopback ports that allow you to configure bi-directional rate-limiting without tying up any of the external ports for ingress rate shaping.
Alpine 3800 Series I/O Modules WM-1T3i Module Figure 116 shows the WM-1T3i module. Figure 116: WM-1T3i module Module reset button Module status LEDs T3 port 10/100 Mbps ports 38_WM1T3i The WM-1T3i module has one T3 port, consisting of two BNC connectors, one for the transmit path and one for the receive path. The module also has two general purpose 10/100 Ethernet ports, using standard RJ-45 connectors.
Configuring I/O Modules Table 40: Alpine I/O module LEDs (green stripe) (Continued) LED Color Indicates Port Green Link up (all except FM-24MFi and FM-24SFi) Flashing green Disabled Amber Packet activity Off Link down Port Green Link up (FM-24MFi and FM-24SFi only) Flashing green Packet activity Off Link down Table 41 describes the LED activity on the Alpine Access I/O modules with the silver stripe (for example, the WM-4T1i, WM-4E1i, and WM-1T3i I/O modules).
Alpine 3800 Series I/O Modules Table 42: Alpine FM32-Pi I/O module system LEDs LED Color Indicates Status Green Normal operation Amber No power has been applied INT Power Green 48V power is being supplied from the internal power supply EXT Power Green 48V power is being supplied from an external power supply Table 43 describes the port LED activity on the Alpine PoE modules (for example, the FM32Pi I/O module).
Verifying the I/O Module Installation NOTE Any unoccupied module slot in the chassis should have a blank faceplate installed to ensure satisfactory protection from EMI and to guarantee adequate airflow through the chassis. 4 Hold the module by its front panel with one hand, and place your other hand under the edge of the metal panel. Check the connectors for dust and packing materials. CAUTION To prevent ESD damage, handle the module by the metal panel edges only.
Alpine 3800 Series I/O Modules LEDs When the I/O module and its ports are configured and operating normally, the front-panel LEDs should appear as follows: • STATUS LED—green • DIAG LED (WM-4Ti module only)—off • Port status LED (per port): — Green (all modules except WM-4T1i) — Alternating green and amber (WM-4Ti1 module only) If you have installed a PoE I/O module (FM-32Pi) and its ports are configured and operating normally, the LEDs should appear as follows: • INT POWER—green • STATUS—green For more in
Removing I/O Modules To remove an I/O module: 1 Attach the ESD strap to your wrist and connect the metal end to the ground receptacle on the top right corner of the switch front panel. 2 Use a #2 Phillips screwdriver to unscrew the two captive screws. 3 Simultaneously rotate the ejector/injector levers away from the center of the module to disengage the module from the backplane. 4 Hold the module front panel with one hand, and place your other hand under the metal panel to support the module.
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11 Replacing the Alpine 3800 Series Switch Fan Tray This chapter provides instructions for replacing the fan tray in the Alpine 3808 or Alpine 3804 switch. The chapter includes the following topics: • Removing the Alpine 3808 or Alpine 3804 Fan Tray on page 209 • Installing the Alpine 3808 or Alpine 3804 Fan Tray on page 211 NOTE Read the information in this chapter thoroughly before you attempt to install or remove any Alpine fan tray.
Replacing the Alpine 3800 Series Switch Fan Tray Figure 117: Alpine 3808 fan tray SE RV IC E IS 04 D IN W AY UP TH 38 LE ST AL N H z 50 60 A 13 6 10 V 200-12 0- 0 24 0 60 10 V 200-12 0- 0 24 0 45 01 2 IN HE W A 13 6 H z 50 SL ID E TO RE M O VE Finger grips 38_fanx8 Figure 118: Alpine 3804 fan tray Finger grips 38_fanx4 4 Allow the fan blades to stop spinning before you remove the fan tray from its slot. WARNING! Keep your hands away from rotating fan blades.
Installing the Alpine 3808 or Alpine 3804 Fan Tray Installing the Alpine 3808 or Alpine 3804 Fan Tray Alpine 3808 and Alpine 3804 fan trays are hot-swappable. You do not need to turn off power to an Alpine 3808 or Alpine 3804 switch to install a fan tray. You need the following tools and equipment to install a fan tray: • ESD-preventive wrist strap • # 1 Phillips screwdriver CAUTION Only trained service personnel should perform service to Alpine 3800 series equipment.
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Part 5 BlackDiamond Switch
12 BlackDiamond 6800 Series Switch Overview The BlackDiamond 6800 series switches are chassis-based switches designed to be placed in the core of your network. The BlackDiamond 6800 series switches are flexible and scalable, making it easy to meet the changing requirements of your network.
BlackDiamond 6800 Series Switch Overview • Autonegotiation for half- or full-duplex operation on 10/100 Mbps ports • Load-sharing on multiple ports • Console (RS-232) CLI connection Port Connections The BlackDiamond 6800 series switches support different port configurations on the different BlackDiamond I/O modules, as described in Table 44. CAUTION Modules that use SX, LX, and LX70 interfaces contain Class 1 laser devices.
Features Fans The BlackDiamond 6816 and 6804 switches have front-accessible fan trays at the side of the chassis. The BlackDiamond 6808 switch has one fan tray that is accessed from the back of the switch. All the BlackDiamond fan trays can be hot-swapped. ExtremeWare monitors the fan trays in the BlackDiamond 6816 switch for failure and overheat conditions. All fan failures and over temperature events cause the switch to send alerts to the network management station or to the switch log.
BlackDiamond 6800 Series Switch Overview BlackDiamond 6816 Switch The BlackDiamond 6816 switch consists of the following components: • One 20-slot chassis with backplane • Sixteen I/O module slots, labeled slots 1 through 16 • Four MSM64i slots, labeled slots A through D • Four power supply bays (accessed from the front of the unit) • Two hot-swappable fan trays containing nine individual fans, accessed from the front of the switch • Two side mounted handles for lifting the chassis • One electrostatic disc
BlackDiamond 6816 Switch Figure 119: Front view of the BlackDiamond 6816 switch with typical I/O modules installed ESD wrist strap connector 51032 1 51032 2 51032 3 4 51032 I/O module slots 5 6 51032 7 50015 8 50015 A B 50015 MSM module slots 50015 C D 51032 9 52011 10 11 12 13 51040 I/O module slots 14 15 16 POWER POWER POWER POWER Power supplies BD_6816s The front of the BlackDiamond switch provides the ESD wrist strap connector, slots for installing MSMs and I/O m
BlackDiamond 6800 Series Switch Overview Figure 120: BlackDiamond 6816 fan tray Turn screw heads clockwise to lock & counter-clockwise to unlock fan tray Hand grip Direction of airflow BD_031 Figure 121 shows the rear panel of the BlackDiamond 6816 switch.
BlackDiamond 6816 Switch Figure 121: Rear panel of the BlackDiamond 6816 switch Label Grounding points BD_rr16s-b The rear panel of the BlackDiamond 6816 switch provides: • Chassis grounding points • System label that includes: — Chassis serial number — Ethernet MAC address of the switch — Symbols of safety certification Extreme Networks Consolidated "e" and "i" Series Hardware Installation Guide 221
BlackDiamond 6800 Series Switch Overview BlackDiamond 6808 Switch The BlackDiamond 6808 switch consists of the following components: • One 10-slot chassis with backplane • Eight I/O module slots, labeled slots 1 through 8 • Two MSM64i slots, labeled slots A and B • Two power supply bays (accessed from the front of the unit) • One hot-swappable fan tray containing three individual fans, accessed from the rear of the unit • One electrostatic discharge (ESD) wrist strap connector The BlackDiamond 6808 switch
BlackDiamond 6808 Switch Figure 122: Front view of the BlackDiamond 6808 switch with typical I/O modules MSM module slots I/O module slots ESD wrist strap connector 1 2 3 4 I/O module slots A B 5 50015 50015 51040 6 7 8 51032 52011 STATUS STATUS R ER G DIA S TU STA V EN R ST M S SY R ER V EN R ST M S SY 9 17 25 2 10 18 26 1 5 9 2 6 10 3 7 11 4 12 20 28 4 8 12 5 13 21 29 6 14 22 30 7 15 23 31 16 24 32 = ACTIVITY AMBER = LINK OK GREEN FLASHING GREE
BlackDiamond 6800 Series Switch Overview Figure 123 shows the rear panel of the BlackDiamond 6808 switch.
BlackDiamond 6804 Switch BlackDiamond 6804 Switch The BlackDiamond 6804 switch consists of the following components: • One 6-slot chassis with backplane • Four I/O module slots, labeled slots 1 through 4 • Two MSM64i slots, labeled slots A and B • Two power supply bays (accessed from the front of the unit) • One hot-swappable fan tray containing six individual fans, accessed from the front of the unit • One electrostatic discharge (ESD) wrist strap connector The BlackDiamond 6804 switch can support up to t
BlackDiamond 6800 Series Switch Overview Figure 125: Front view of the BlackDiamond 6804 switch with sample I/O modules ESD receptacle Fan tray MSM module slots I/O module slots POWER POWER DC OUT DC OUT AC IN AC IN 50021 50021 Power supplies V-50/60Hz 200-240V, 15A V-50/60Hz 200-240V, 15A 6804chas The front of the BlackDiamond switch provides the ESD wrist strap connector, slots for installing MSMs and I/O modules, power supplies, and access to the fan tray (Figure 126).
BlackDiamond Power Supplies Figure 127 shows the rear panel of the BlackDiamond 6804 switch. Figure 127: Rear panel of the BlackDiamond 6804 switch Label Grounding points 6804_rr-b The rear of the BlackDiamond 6804 switch provides: • Chassis grounding points • System label that includes: — Chassis serial number — Ethernet MAC address of the switch — Symbols of safety certification BlackDiamond Power Supplies Power supplies in the BlackDiamond switch are installed from the front of the chassis.
BlackDiamond 6800 Series Switch Overview To increase switch reliability, you can install additional power supplies as needed. If you have three or more power supplies installed in a BlackDiamond 6816 switch or two or more power supplies installed in a BlackDiamond 6808 or BlackDiamond 6804 switch, you can remove one of the power supplies without turning off power to the chassis. Table 45 lists the minimum number of power supplies required to power a BlackDiamond 6800 series chassis.
BlackDiamond Power Supplies Figure 128: 220 VAC power supplies in a BlackDiamond 6808 or a BlackDiamond 6804 switch POWER DC OUT AC IN POWER 50021 DC OUT AC IN 50021 BD_028 Table 46 describes the LED activity on the 220 VAC power supply Table 46: LEDs on the 220 VAC power supply LED Color Indicates AC In Green Input voltage is 200-240 V Amber Input voltage is less than 180 V Off No input power Green All DC outputs are operational Amber One or more DC outputs have failed Off No power
BlackDiamond 6800 Series Switch Overview Figure 129: 110 VAC power supplies in a BlackDiamond 6808 or a BlackDiamond 6804 switch POWER DC OUT AC IN POWER 50020 DC OUT AC IN 50020 BD_026 Table 47 on page 230 describes the LED activity on the 110 VAC power supply Table 47: 110 VAC power supply LED activity LED Color Indicates AC In Green Powered using both inputs Amber Powered using only one input, or input voltage is less than 100 V Off No input power Green All DC outputs are operational
BlackDiamond Power Supplies For centralized DC power connections, install only in a restricted access area.
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13 Installing a BlackDiamond 6800 Series Switch Chassis This chapter includes the following topics: • Installation Summary on page 233 • Safety Information on page 233 • Installing the Chassis on page 234 • Grounding the BlackDiamond 6800 Series Chassis on page 238 • Removing the Chassis on page 239 NOTE Read the information in this chapter thoroughly before you attempt to install or remove any BlackDiamond chassis.
Installing a BlackDiamond 6800 Series Switch Chassis necessary to be aware of the hazards to which they are exposed in performing a task. They are aware of measures to minimize the danger to themselves or other persons. NOTE Electronic components are sensitive to static electricity. ESD originating from you or from objects around you can damage these components. Exercise every possible precaution to prevent ESD when working around printed circuit assemblies.
Installing the Chassis To mount the BlackDiamond 6800 series chassis in a standard 19-inch (48.
Installing a BlackDiamond 6800 Series Switch Chassis NOTE Do not use the fan tray handle to lift and insert the chassis into the rack. 5 While holding the empty chassis, secure it with a minimum of eight suitable screws.
Installing the Chassis Figure 133: Securing the BlackDiamond 6808 chassis to a rack 1 2 3 4 A B 5 6 7 8 BD_rack08 Figure 134: Securing the BlackDiamond 6804 chassis in a rack 6804rack 6 After you secure the chassis, remove the helper bracket. Store it for future use, in case you need to remove the chassis.
Installing a BlackDiamond 6800 Series Switch Chassis Grounding the BlackDiamond 6800 Series Chassis To ground your BlackDiamond 6800 series chassis in accordance with NEBS standards, gather the following materials: • Two 1/4-20 screws • One copper, standard barrel 2-hole compression grounding lug, type LDC, equivalent to Panduit part number LCD4-14B-L • Appropriate grounding wire for your system, based on the available input current for the power supply: — For AC systems using a 20-Amp breaker per PSU (SSI
Removing the Chassis Removing the Chassis To remove the BlackDiamond 6800 series chassis from a rack, you need the following tools, equipment, and resources: • Helper bracket (shipped originally with the chassis) • A minimum of four appropriate screws to secure the helper bracket (not provided) • # 1 Phillips screwdriver • A minimum of two people to help remove the chassis from the rack To remove the chassis from a rack: 1 Unplug the power cable from the outlet and then from the switch before you attempt t
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14 Installing and Connecting BlackDiamond 6800 Series Power Supplies This chapter includes the following topics: • Preparing for Installation on page 241 • Installing a BlackDiamond 6800 Series AC Power Supply on page 243 • Replacing a BlackDiamond 6800 Series AC Power Supply on page 246 • Installing a BlackDiamond 6800 Series DC Power Supply on page 248 • Removing a BlackDiamond 6800 Series DC Power Supply on page 251 NOTE Read the information in this chapter thoroughly before you attempt to install, remov
Installing and Connecting BlackDiamond 6800 Series Power Supplies When you install any power supply in a BlackDiamond 6800 series switch, orient the power supply as follows: • For the BlackDiamond 6816 switch, as shown in Figure 136: — Retaining screws to the left — Locking handle at the bottom • For the BlackDiamond 6808 or Black Diamond 6804 switch, as shown in Figure 137: — Power supply right side up, with the retaining screws at the bottom — Locking handle to the right Figure 136: Orientation of the DC
Installing a BlackDiamond 6800 Series AC Power Supply Figure 137: Orientation of the AC power supply in a BlackDiamond 6808 or a BlackDiamond 6804 POWER DC OUT AC IN 50021 V-50/60Hz 200-240V, 15A BD_033 CAUTION Do not handle the power supply using the DC output bus bars. Support the power supply from the bottom, while holding the handle on the front of the power supply unit.
Installing and Connecting BlackDiamond 6800 Series Power Supplies 4 Prepare the power supply as follows: a Support the power supply with both hands under the unit while you check the connectors for dust and packing materials. b Note the correct orientation of the power supply as noted in Figure 136 and Figure 137. c Open the locking handle. 5 Slowly slide the power supply into the power supply bay. CAUTION Do not slam the power supply into the backplane.
Installing a BlackDiamond 6800 Series AC Power Supply Figure 140: BlackDiamond 220 VAC power cable and plug Wider prong BD_220cord Figure 141 shows the BlackDiamond 6800 series 110 VAC power cable and plug. Figure 141: BlackDiamond 110 VAC power cable and plug Wider prong BD_110cord Verifying a Successful Installation After you supply power to the BlackDiamond switch, each MSM performs a power-on self-test (POST) of its circuitry. The LED labeled “SYS” on the MSM blinks amber during the POST.
Installing and Connecting BlackDiamond 6800 Series Power Supplies Replacing a BlackDiamond 6800 Series AC Power Supply BlackDiamond 6800 series power supplies are hot-swappable. You can add or remove power supplies without turning off power to the chassis. Normal operation will continue as long as the switch has enough power to support the installed modules.
Replacing a BlackDiamond 6800 Series AC Power Supply Figure 142: Removing BlackDiamond 6816 AC power supplies POWER POWER V-50/60Hz 200-240V, 15A V-50/60Hz 200-240V, 15A DC OUT AC IN 50021 POWER DC OUT AC IN 50021 POWER V-50/60Hz 200-240V, 15A V-50/60Hz 200-240V, 15A DC OUT AC IN 50021 DC OUT AC IN 50021 BD_029 Figure 143: Removing BlackDiamond 6808 or BlackDiamond 6804 220 VAC power supplies POWER DC OUT AC IN POWER 50021 DC OUT AC IN 50021 BD_028 Extreme Networks Consolidated "e
Installing and Connecting BlackDiamond 6800 Series Power Supplies 6 Hold the edges of the power supply with both hands and pull the power supply slowly toward you. After you pull the power supply toward you, place both hands underneath the power supply to support it as you pull it out of the chassis. CAUTION The power supply weighs approximately 30 pounds (14 kg). CAUTION Do not handle the power supply using the DC output bus bars.
Installing a BlackDiamond 6800 Series DC Power Supply Figure 144: Dimensions of the DC power cable lugs 4 AWG, high-strand-count conductor 2.25 in. (5.72cm) Terminal crimp 0.55 in. (1.40cm) 2 holes 0.267 in. (0.678cm) 0.08 in. (0.20cm) 0.25 in. (0.64cm) 0.625 in. (1.588cm) 0.37 in. (0.94cm) Area for heat-shrink tubing BD_021 Use power cables and lugs with the specifications outlined in Table 50.
Installing and Connecting BlackDiamond 6800 Series Power Supplies above the power supply faceplate; the set of positive (+) and negative (–) studs extend 0.9 inch (22.9 mm) above the faceplate. The nickel plating on the studs enhances conductivity and resists corrosion. Installing the Power Supply To install the power supply: 1 Attach the ESD strap to your wrist and connect the metal end to the ground receptacle on the top left corner of the switch front panel.
Removing a BlackDiamond 6800 Series DC Power Supply NOTE See Chapter 15, “BlackDiamond 6800 Series Management Switch Fabric Module” for more information about switch management module LED activity and Chapter 16, “BlackDiamond 6800 Series I/O Modules” for more information about I/O module LED activity. Removing a BlackDiamond 6800 Series DC Power Supply BlackDiamond 6800 series power supplies are hot-swappable.
Installing and Connecting BlackDiamond 6800 Series Power Supplies Figure 146: Removing BlackDiamond 6816 DC power supplies POWER -48V -48V RET V 48V, 60A 50022 POWER -48V DC OUT DC IN SINGLE DC PSU -48V RET V 48V, 60A 50022 DC OUT DC IN SINGLE DC PSU BD_034 10 Hold the edges of the power supply with both hands and slowly pull the power supply toward you. After you pull the power supply toward you, place both hands underneath the power supply to support it as you pull it out of the chassis.
15 BlackDiamond 6800 Series Management Switch Fabric Module This chapter Includes the following topics: • Overview of the BlackDiamond Management Switch Fabric Module on page 253 • Installing MSMs on page 257 • Replacing MSMs on page 260 NOTE Read the information in this chapter thoroughly before you attempt to install or remove the BlackDiamond Management Switch Fabric Module (MSM).
BlackDiamond 6800 Series Management Switch Fabric Module Table 51: Packet throughput between I/O modules Chassis # of MSMs Throughput BlackDiamond 6816 1 64 Gbps 2 128 Gbps 3 192 Gbps 4 256 Gbps 1 64 Gbps 2 128 Gbps 1 32 Gbps 2 64 Gbps BlackDiamond 6808 BlackDiamond 6804 Install an MSM in any lettered slot in the BlackDiamond 6800 series chassis: • BlackDiamond 6816—Slots labeled A, B, C, or D • BlackDiamond 6808—Slots labeled A or B • BlackDiamond 6804—Slots labeled A or B Figure 147 s
Overview of the BlackDiamond Management Switch Fabric Module Figure 148: MSM-3 Module Module status LEDs Module reset button Console port Modem port Management port PCMCIA slot EX_002 The MSM-3 module allows cross-module trunking on the BlackDiamond 6804 and 6808 chassis. Cross-module trunking is the ability for a load-share group to span multiple modules. Load-sharing groups are still limited to a maximum of eight ports, but the ports can be located on any number of different modules.
BlackDiamond 6800 Series Management Switch Fabric Module When you save the switch configuration, it is saved to all MSMs. If you download a new ExtremeWare image, the image is downloaded to all MSMs. Selection of the master MSM occurs automatically. The following scenarios describe the selection process: • When the BlackDiamond 6800 series switch boots with one or more MSMs already installed, and an MSM module is installed in slot A, the MSM in slot A becomes the master.
Installing MSMs MSM LEDs Table 52 describes the LED activity on the MSM.
BlackDiamond 6800 Series Management Switch Fabric Module CAUTION You can install MSMs in lettered slots only. MSMs do not fit in numbered slots. Forceful insertion can damage the MSM module. 3 Remove the blank faceplate from the slot to make room for the module, if necessary. NOTE Any unoccupied module slot in the chassis should have a blank faceplate installed to ensure satisfactory protection from EMI and to guarantee adequate airflow through the chassis.
Installing MSMs Figure 151: MSM before insertion in a BlackDiamond 6808 50015 CONSOLE MODEM MGMT LINK / ACTIVITY PCMCIA EW_clips 6 Extend the ejector/injector levers. 7 Install the module as follows: a Slide the MSM into the appropriate lettered slot of the chassis, until it makes contact with the backplane. NOTE Use the metal panel, not the PCB, to guide the MSM. As the MSM begins to seat in the chassis, the ejector/injector levers begin to close.
BlackDiamond 6800 Series Management Switch Fabric Module 8 If you install a slave MSM, use the synchronize command to replicate all saved images and configurations from the master MSM to the slave MSM. You are not prompted to synchronize the images and the configurations from the master to the slave. If not synchronized, the slave uses its image and the master configuration. This image/configuration mismatch will likely cause the switch to operate differently after failover.
Replacing MSMs To remove an MSM: 1 Attach an ESD strap to your wrist and connect the metal end to the ground receptacle on the top left corner of the switch front panel. 2 To loosen the module, unscrew the screws with a #1 Phillips screwdriver. 3 Simultaneously rotate the ejector/injector levers outward to disengage the module from the backplane. 4 Hold the module front panel with one hand, and place your other hand under the metal panel to support the weight of the module.
BlackDiamond 6800 Series Management Switch Fabric Module 262 Extreme Networks Consolidated "e" and "i" Series Hardware Installation Guide
16 BlackDiamond 6800 Series I/O Modules This chapter includes the following topics: • Configuring I/O Modules on page 263 • I/O module descriptions, starting on page 264 • Installing I/O Modules on page 294 • Replacing I/O Modules on page 296 • Installing XENPAK Modules on page 297 NOTE Read the information in this chapter thoroughly before you attempt to install or remove any BlackDiamond I/O modules.
BlackDiamond 6800 Series I/O Modules NOTE See the ExtremeWare Software User Guide and the ExtremeWare Command Reference Guide for more information about configuring I/O modules. 10GX3 Module Figure 152 shows the 10GX3 module. Figure 152: 10GX3 module Module status LEDs 10Gb port 10GX_001 The 10GX3 is a BlackDiamond I/O module with a single 10 Gigabit Ethernet port available using one XENPAK connector.
Configuring I/O Modules LEDs The 10GX3 module has the following LEDs: • Module status (Status) • Port status (Link Activity) • Diagnostics For information about the LEDs and their activity on the 10GX3 module, see “I/O Module LEDs” on page 293. Software Requirements The BlackDiamond MSM requires both BootROM 8.1 (or later) and the final release build of ExtremeWare 7.2 (or later) in order to recognize the 10GX3 I/O module.
BlackDiamond 6800 Series I/O Modules G8Ti Module Figure 153 shows the G8Ti module. Figure 153: G8Ti module Module status LEDs 100/1000 Mbps ports with status LEDs and speed LEDs XM_G8Ti The G8Ti module has eight autosensing 100/1000BASE-T ports that use standard RJ-45 connectors. The default configuration of the G8Ti module is as follows. All ports: • Are added to the default VLAN as untagged. • Inherit the properties of the default VLAN (protocol type, VLANid, and so forth).
Configuring I/O Modules G8Xi Module Figure 154 shows the G8Xi module. Figure 154: G8Xi module Module status LEDs 51032 STATUS DIAG 1 AMBER = ACTIVITY GREEN = LINK OK FLASHING GREEN = DISABLED 2 3 4 Gigabit Ethernet ports with status LEDs 5 6 7 8 XM_G8Xi The G8Xi module has eight unpopulated GBIC-based Gigabit Ethernet ports. All Gigabit Ethernet ports on these modules use standard GBIC connectors and support 1000BASE-SX, 1000BASE-LX, 1000BASE-LX70, and 1000BASE-ZX.
BlackDiamond 6800 Series I/O Modules Table 53: GBIC types and maximum distances Standard Media Type Mhz•Km Rating Maximum Distance (Meters) SX (850 nm optical window) 50/125 µm multimode fiber 400 500 50/125 µm multimode fiber 500 550 62.5/125 µm multimode fiber 160 220 62.5/125 µm multimode fiber 200 275 50/125 µm multimode fiber 400 550 50/125 µm multimode fiber 500 550 62.
Configuring I/O Modules G12SXi Module Figure 155 shows the G12SXi module. Figure 155: G12SXi module 51040 Module status LEDs Port status LEDs G DIA S TU STA 1 5 9 2 6 10 3 7 11 4 8 12 AMBER GREEN FLASHING GREEN = ACTIVITY = LINK OK = DISABLED 1 2 3 4 5 6 1000 Mbps ports 7 8 9 10 11 12 EW_G12SXi The G12SXi module has 12 Gigabit Ethernet ports that use standard MT-RJ connectors, and supports 1000BASE-SX only. The default configuration of the G12SXi module is as follows.
BlackDiamond 6800 Series I/O Modules G16X3 Module Figure 156 shows the G16X3 module. Figure 156: G16X3 module Module status LEDs Port status LEDs Mini-GBIC ports G16X3 The G16X3 module has 16 1000BASE-X ports using mini-GBIC (or small form factor pluggable (SFP)) slots. The G16X3 ports are oversubscribed to the module’s switch fabric. The module has eight groups of two ports each. Each group multiplexes traffic into a single full duplex gigabit link to the switch fabric.
Configuring I/O Modules NOTE If congestion is detected on a port with flow control enabled, a flow control PAUSE frame is sent out that port. The PAUSE frame is not sent out on the other port in the group. Table 55 describes the media types and the associated maximum distances for the GM-16X3 module.
BlackDiamond 6800 Series I/O Modules Table 56 lists the number of G16X3 modules that you can install in a BlackDiamond chassis depending on which power supplies are installed.
Configuring I/O Modules G24T3 Module Figure 157 shows the G24T3 module. Figure 157: G24T3 module Module status LEDs Port status LEDs RJ-45 connector ports G24T3 The G24T3 module has 24 1000BASE-T ports using RJ-45 connectors that autonegotiate for 10BASE-T, 100BASE-T, or 1000BASE-T. The G24T3 ports are oversubscribed 4:1 to the module’s switch fabric. The module has six groups of four ports each. Each group multiplexes traffic into a single full duplex gigabit link to the switch fabric.
BlackDiamond 6800 Series I/O Modules NOTE If congestion is detected on a port with flow control enabled, a flow control PAUSE frame is sent out that port. The PAUSE frame is not sent out on the other port in the group. The G24T3 module supports distances of up to 100 meters over CAT 5 cabling. LEDs The G24T3 module has the following LEDs: • Module status • Port status • Diagnostics For information about the LEDs and their activity on the G24T3 module, see “I/O Module LEDs” on page 293.
Configuring I/O Modules F48Ti Module Figure 158 shows the F48Ti module. Figure 158: F48Ti module Module status LEDs 52011 STATUS DIAG 10/100 Mbps ports with status LEDs XM_F48Ti The F48Ti has 48 autosensing 10BASE-T/100BASE-TX ports. All ports use standard RJ-45 connectors. The default configuration of the F48Ti module is as follows. All ports: • Are added to the default VLAN as untagged. • Inherit the properties of the default VLAN (protocol type, VLANid, and so forth).
BlackDiamond 6800 Series I/O Modules F96Ti Module Figure 159 shows the F96Ti module. Figure 159: F96Ti module Module status LEDs 10/100 Mbps ports BD_F96Ti The F96Ti has 96 10BASE-T/100BASE-TX ports available through eight RJ-21 telco connectors. Each RJ-21 port provides twelve 10/100 Mbps ports. The RJ-21 port is shown in Figure 160.
Configuring I/O Modules To connect to the F96Ti module, use a 180-degree male RJ-21 connector with a shielded PVC trunk cable and secure to a maximum of 4 in-lbs of torque. You can access the ports in one of the following ways: • Through a patch panel by terminating the cable and shield with an RJ-21 connector. • Directly by using a cable that is terminated with 12 RJ-45 connectors. The RJ-21 connector is shown in Figure 161. For cable specifications, see Table 126 on page 362.
BlackDiamond 6800 Series I/O Modules Table 59: F96Ti modules supported Chassis Power Supply F96Ti Module Additional Modules BlackDiamond 6804 iPower power supplies 4 0 BlackDiamond 6808 original power supplies 6 0 BlackDiamond 6808 iPower power supplies 7 1 (ARM, G8Xi, G12SXi, P3cSi, P3cMi, or P12cMi) BlackDiamond 6816 iPower power supplies 15 0 278 Extreme Networks Consolidated "e" and "i" Series Hardware Installation Guide
Configuring I/O Modules F32Fi Module Figure 162 shows the F32Fi module. Figure 162: F32Fi module Module status LEDs 1 2 3 9 17 10 18 11 19 25 26 27 4 12 20 28 5 13 21 29 6 14 22 30 7 15 23 31 8 16 24 32 1 Port status LEDs 17 4 20 5 21 8 24 9 25 12 28 13 29 16 32 100 Mbps ports BD_F32Fi All F32Fi ports have 32 100BASE-FX ports and use standard MT-RJ connectors. The default configuration of the F32Fi modules is as follows.
BlackDiamond 6800 Series I/O Modules P3cSi, P3cMi, P12cSi, and P12cMi Modules Extreme Networks offers the PoS module in the following configurations: • P3cMi: four OC-3 multimode, short-reach optical interfaces • P3cSi: four OC-3 single-mode, intermediate-reach optical interfaces • P12cMi: two OC-12 multimode, short-reach optical interfaces • P12cSi: two OC-12 single-mode, intermediate-reach optical interfaces NOTE The “c” in the names of the modules indicates that the optical interfaces on these modules o
Configuring I/O Modules NOTE PoS modules are a Class 1 laser device. Figure 164 shows the P3cSi and P3cMi modules. Figure 164: P3cSi and P3cMi modules Module status LEDs Port status LEDs Network interface ports Port status LEDs Service ports BD_P3 Figure 165 shows the P12cSi and P12cMi modules.
BlackDiamond 6800 Series I/O Modules The P3cSi and P3cMi Packet over SONET (PoS), modules each have four OC-3 ports that use duplex SC connectors. The P12cSi and P12cMi PoS modules each have two OC-12 ports that use duplex SC connectors. The P3cSi and the P12cSi modules support single mode fiber-optic cable only, and the P3cMi and the P12cMi modules support multimode fiber-optic cable only.
Configuring I/O Modules Both ports are reserved for use only by Extreme Networks technical support personnel for diagnostic procedures. Software Requirements The PoS modules require ExtremeWare 7.0 or later on both the MSM module and the PoS module, BootROM 7.8 for the MSM module, and BootROM 1.18 for the PoS module. For more information about the software requirements, PoS module features, and PoS module configurations, see the ExtremeWare Software User Guide and the ExtremeWare Command Reference Guide.
BlackDiamond 6800 Series I/O Modules ARM Figure 166 shows the Accounting and Routing Module (ARM). Figure 166: Accounting and Routing Module (ARM) Module status LEDs Service port Reset Service port ARM_001 The ARM is a self-contained module for the BlackDiamond 6800 series chassis-based system. Unlike most other BlackDiamond modules, there are no external interfaces on the ARM. Instead, the ARM provides advanced IP services for the other I/O modules installed in the chassis.
Configuring I/O Modules Figure 167: Components and LEDs of the ARM Captive retaining screw Module status LED Module diagnostics LED Ejector/injector handle Network processors and heat sinks Service ports General Purpose Processor (GPP) PoS_002 ARM_005 ARM LEDs The ARM has two module-level LED indicators (STATUS and DIAG) (see Figure 167). • STATUS LED—Located near the top end of the ARM front panel, near the ejector/injector handle.
BlackDiamond 6800 Series I/O Modules Software Requirements The ARM requires ExtremeWare 7.0 or later on both the MSM module and the ARM, BootROM 7.8 for the MSM, and BootROM 1.18 for the ARM. For more information about the software requirements, ARM features, and ARM configurations, see the ExtremeWare Software User Guide and the ExtremeWare Command Reference Guide. Hardware Requirements The ARM is compatible with “i” series MSMs only.
Configuring I/O Modules MPLS Module Figure 168 shows the MultiProtocol Label Switching (MPLS) module. Figure 168: MultiProtocol Label Switching (MPLS) module Module status LEDs Service port Reset Service port MPLS_13 The MultiProtocol Label Switching (MPLS) module contains a powerful set of network processors that are specifically programmed to implement the MPLS function.
BlackDiamond 6800 Series I/O Modules Figure 169: Components and LEDs of the MPLS module Captive retaining screw Module status LED Module diagnostics LED Ejector/injector handle Network processors and heat sinks Service ports General Purpose Processor (GPP) PoS_002 MPLS_15 MPLS LED Indicators The MPLS module has two module-level LED indicators (STATUS and DIAG) (see Figure 169). • STATUS LED—Located near the top end of the front panel, near the ejector/injector handle.
Configuring I/O Modules Software Requirements The MPLS module requires ExtremeWare 7.0 or later on both the MSM module and the MPLS module, BootROM 7.8 for the MSM module, and BootROM 1.18 for the MPLS module. For more information about the software requirements, MPLS module features, and MPLS module configurations, see the ExtremeWare Software User Guide and the ExtremeWare Command Reference Guide. Hardware Requirements The MPLS module is compatible with “i” series MSMs only.
BlackDiamond 6800 Series I/O Modules A3cSi and A3cMi Modules Extreme Networks offers the ATM module in the following configurations: • A3cSi—four OC-3 single-mode, intermediate-reach optical interfaces • A3cMi—four OC-3 multimode, short-reach optical interfaces NOTE The “c” in the names of the modules indicates that the optical interfaces on these modules operate in concatenated mode, which enables all the bandwidth to be devoted to a single payload stream. Figure 170 shows the A3cSi and A3cMi modules.
Configuring I/O Modules NOTE The ATM module is a Class 1 laser device. The default configuration of the A3cSi and A3cMi modules is as follows. Ports 1 and 3: • Are added to the default VLAN as untagged. • Inherit the properties of the default VLAN (VLANid and so forth). For specifications of the A3cSi optical interface, see Table 133 on page 367.
BlackDiamond 6800 Series I/O Modules ATM Module LEDs The ATM module is equipped with two module-level LED indicators (STATUS and DIAG) and one port-level LED indicator for each network interface port on the ATM module (see Figure 171). • STATUS LED—Located near the top end of the ATM module front panel, near the ejector/injector lever. This LED indicator is a bi-color LED (lighting either green or amber) that signals the operating status of the module as a whole. • DIAG LED—Located beside the STATUS LED.
Configuring I/O Modules I/O Module LEDs This section describes the LED activity on the BlackDiamond I/O modules: • Table 60 describes the LED activity on the Ethernet I/O modules • Table 61 describes the LED activity on the PoS and ATM modules • Table 62 describes the LED activity on the ARM and MPLS modules Table 60: BlackDiamond Ethernet I/O module LEDs LED Color Indicates Status Green blinking Normal operation Amber blinking Configuration error, code version error, diagnostic failure, or other se
BlackDiamond 6800 Series I/O Modules Table 62: BlackDiamond ARM and MPLS module LEDs LED Color Indicates Status Flashing green Normal operation Flashing amber Configuration error, code version error, diagnostic failure, or other severe module error Off No power Green Normal operation Flashing amber Diagnostics in progress Amber Diagnostic failure DIAG Installing I/O Modules You can insert I/O modules at any time, without causing disruption of network services.
Verifying the I/O Module Installation CAUTION To prevent ESD damage, handle the module by the metal panel edges only. Never touch the components on the PCB or pins on any of the connectors. 5 Position the module correctly for the switch into which you are installing it. For the BlackDiamond 6816 or the BlackDiamond 6804: • The module is horizontal. • The module name is to the left. For the BlackDiamond 6808: • The module is vertical. • The module name is at the top.
BlackDiamond 6800 Series I/O Modules The ARMs and MPLS modules do not have external network interfaces (ports); therefore, there are no port status LEDs on those modules. — Green — Amber blinking (all except ATM and PoS modules) — Amber blinking, returning to green (ATM and PoS modules only) For more information about I/O module LED activity, see “I/O Module LEDs” on page 293.
Installing XENPAK Modules 3 Simultaneously rotate the ejector/injector levers outward to disengage the module from the backplane. 4 Grasp the module front panel with one hand, and place your other hand under the metal panel to support the weight of the module. CAUTION To prevent ESD damage, handle the module by the metal panel edges only. Never touch the components on the PCB or pins on any of the connectors.
BlackDiamond 6800 Series I/O Modules CAUTION The XENPAK module can emit invisible laser radiation. Avoid direct eye exposure to the beam. WARNING! To prevent ESD damage to the XENPAK module, always use an ESD-preventive wrist strap when installing or removing the module. Handle the module by its sides only. Never touch the card-edge connectors at the insertion end of the module.
17 Replacing the BlackDiamond 6800 Series Switch Fan Tray This chapter provides instructions to install the following BlackDiamond fan trays: • BlackDiamond 6816 fan trays (no. 53013) • BlackDiamond 6808 fan tray (no. 50013) • BlackDiamond 6804 fan tray (no.
Replacing the BlackDiamond 6800 Series Switch Fan Tray To remove a fan tray from the BlackDiamond 6800 series switch: 1 Attach the ESD strap to your wrist and connect the metal end to the ground receptacle on the top left corner of the switch front panel. 2 Use a #1 Phillips screwdriver to unscrew the screws that secure the fan tray to the chassis. Put the screws from the BlackDiamond 6808 fan tray aside in a safe place.
Installing a BlackDiamond 6800 Series Fan Tray Figure 174: Removing the BlackDiamond 6808 fan tray BD_fanx 4 Allow the fan blades to stop spinning; then pull the fan tray the rest of the way out of the chassis. WARNING! Keep your hands your away from rotating fan blades. 5 Repeat this procedure for additional fan trays, if applicable. Leave the ESD strap permanently connected to the chassis so that it is always available when you need to handle ESD-sensitive components.
Replacing the BlackDiamond 6800 Series Switch Fan Tray 3 Make sure the fan tray is right side up. 4 For the BlackDiamond 6816 switch and the BlackDiamond 6804 switch, support the fan tray with one hand under the fan tray and use the other hand to guide the fan tray into the slot. Carefully slide the new fan tray into the slot. For the BlackDiamond 6808 switch, use both hands to hold the fan tray handles and use the two pins on each side of the fan tray to guide the fan tray into the bay.
Part 6 Switch Operation
18 Initial Switch and Management Access This chapter describes: • Connecting Equipment to the Console Port on page 305 • Logging In for the First Time on page 306 Connecting Equipment to the Console Port Connection to the console port is used for direct local management.
Initial Switch and Management Access Logging In for the First Time After your switch has completed all power-on self-tests, it is operational. When the switch is operational, you can log in and configure an IP address for the default VLAN (named default).
Part 7 Appendixes
A Safety Information Important Safety Information WARNING! Read the following safety information thoroughly before installing your Extreme Networks switch. Failure to follow this safety information can lead to personal injury or damage to the equipment. Installation, maintenance, and removal of a switch, chassis, or its components must be done only by qualified service personnel.
Safety Information • The socket outlet must be near the unit and easily accessible. You can only remove power from the unit by disconnecting the power cable from the outlet. • This unit operates under Safety Extra Low Voltage (SELV) conditions according to the IEC 950 standard. The conditions are only maintained if the equipment to which it is connected also operates under SELV conditions.
Important Safety Information Fuse This information pertains only to the Summit series of switches, except the Summit7i. To change the fuse in a Summit series switch: 1 Disconnect power from the unit before opening the fuse holder cover. 2 Release the fuse holder by gently levering a small screwdriver under the fuse holder catch. 3 Replace the fuse. Use only fuses of the same manufacturer, rating, and type as the original. 4 Close the fuse holder.
Safety Information Lithium Battery Lithium batteries included with Extreme products are encapsulated and must be replaced by qualified Extreme Service personnel only. Contact your Extreme Service personnel for product replacement. Do not attempt to replace a lithium battery. If these instructions are disregarded and replacement of these batteries is attempted, they should be replaced with the same or equivalent type, as recommended by the battery manufacturer.
Wichtige Sicherheitshinweise Sicherheitshinweise (German) Wichtige Sicherheitshinweise WARNING! WARNUNG! Lesen Sie die folgenden Sicherheitshinweise aufmerksam, bevor sie Ihren Extreme Networks-Switch installieren. Eine Missachtung dieser Sicherheitshinweise kann zu Verletzungen führen oder das Gerät beschädigen. Die Installation, Wartung und die Deinstallation des Switch, des Chassis oder einer seiner Komponenten darf nur von qualifiziertem Servicepersonal durchgeführt werden.
Safety Information 314 Extreme Networks Consolidated "e" and "i" Series Hardware Installation Guide
B Switch Technical Specifications This appendix describes the hardware technical specifications for “e” and “i” series of Extreme Network switches.
Switch Technical Specifications Table 63: Common switch specifications (Continued) Definition of Certification Marks See switch specifications for applicability of these certification marks to that switch.
Common Switch Specifications Table 64: Pinouts for the console connector (Continued) Function Pin Number Direction GND (ground) 5 - DSR (data set ready) 6 In RTS (request to send) 7 Out CTS (clear to send 8 In Figure 176 shows the pinouts for a 9-pin to 25-pin (RS-232) null-modem cable.
Switch Technical Specifications Summit 200 Series Switch Specifications The Summit 200 series consists of 24-port and a 48-port models. Table 65 lists the specifications that are common within the Summit 200 series. Table 66 through Table 69 provide model-specific information. Table 65: Summit 200 common specifications Safety Standards North American Safety of ITE Certifications and Standards • UL 60950-1:2003 1st Ed., Listed Device (US) • CSA 22.2#60950-1-03 1st Ed.
Summit 200 Series Switch Specifications Table 65: Summit 200 common specifications Safety Standards International EMC Certifications Certifications and Standards • CISPR 22:1997 Class A (International Emissions) • CISPR 24:1997 Class A (International Immunity) • IEC/EN 61000-4-2 Electrostatic Discharge, 8kV Contact, 15kV Air, Criteria A • IEC/EN 61000-4-3 Radiated Immunity 10V/m, Criteria A • IEC/EN 61000-4-4 Transient Burst, 1kV, Criteria A • IEC/EN 61000-4-5 Surge, 2kV, 4kV, Criteria A • IE
Switch Technical Specifications Table 65: Summit 200 common specifications Safety Standards Operating Conditions Certifications and Standards o Operating Temperature Range 0°C to 40°C (32 F to 104 F) o Operating Humidity:10% to 95% relative humidity, noncondensing o Operating Altitude 0-3000 meters (9,850ft) o Operational Shock (Half Sine in Rack): 30 m/s2 (3g), 11ms, 60 Shocks o Operational Sine Vibration (In Rack): 5-100-5 Hz @ 2/10G, 0-Peak, 1 Oct./min. o Operational Random Vibration: 3-500MHz @ 1.
Summit 200 Series Switch Specifications Table 66: Summit 200-24 and Summit 200-48 specifications Power Supply for Summit 200-24 and Summit 200-48 AC Line Frequency: 50 Hz to 60 Hz Input Voltage Options: 100 VAC to 240 VAC, auto-ranging Nominal Operating Voltage 120 VAC Current Rating: 100-120/200-240 VAC 2.0/1.0 A 0.5/0.25A Table 67: Summit 200-24 unique specifications Physical and Environmental Dimensions Height: 1.75 inches (4.44 cm) Width: 17.3 inches (43.94 cm) Depth: 8.1 inches (20.
Switch Technical Specifications Table 69: Summit 200-24fx and Summit 200-24fx-TAA unique specifications Physical and Environmental Dimensions Height: 1.75 inches (4.44 cm) Width: 17.3 inches (43.94 cm) Depth: 12.3 inches (31 cm) Weight 9.5 lbs (4.3 kg) Heat Dissipation, Watts/BTU 45 W Package Dimensions Height: 3.62 inches (9.2 cm) Width: 17.48 inches (44.4 cm) Depth: 23.07 inches (58.6 cm) Package Weight 12.25 lbs (5.
Summit 300 Series Switch Specifications Table 71: Summit 300-24 unique specifications Physical and Environmental Dimensions Height: 1.75 inches (44.45mm) Width: 17.35 inches (440.69 mm) Depth: 15.3 inches (388.62 mm) Weight 14 lbs. (6.
Switch Technical Specifications Table 73: Summit 300-48 internal power supply electrical specifications (Continued) Environmental Operating Conditions Operating Temperature 0° to 40° C (32° to 104° F) Storage Temperature -40° to 70° C (-40° to 158° F) Operating Humidity 10% to 95% relative humidity, noncondensing Operational Shock 30 m/s2 (3g) Standards EN/ETSI 300 019-2-1 v2.1.2 – Class 1.2 Storage EN/ETSI 300 019-2-2 v2.1.2 – Class 2.3 Transportation EN/ETSI 300 019-2-3 v2.1.2 – Class 3.
Summit 300 Series Switch Specifications Table 74: Summit 300-48 internal power supply environmental and safety specifications (Continued) Electromagnetic Interference/ Compatibility (EMI/EMC) Certifications and Standards North America EMC for ITE • FCC CFR 47 part 15 Class A • ICES-003 Class A European EMC standards for ITE • EN 55022:1998 Class A • EN 55024:1998 Class A (includes IEC 61000-4-2, 3, 4, 5, 6, 8, 11) • EN 61000-3-2,3 (Harmonics & Flicker) • ETSI EN 300 386:2001 (EMC Telecommunicat
Switch Technical Specifications Summit 400 Series Switch Specifications The Summit 400 series has three models, the Summit 400-24t, Summit 400-24p, and Summit 400-48t. Table 76 lists specifications for the Summit 400-24t. Table 77 lists specifications for the Summit 400-24p. Table 78 lists specifications for the Summit 400-48t switch. Table 76: Summit 400-24t specifications Physical and Environmental Dimensions Height: 1.7 inches (4.3 cm) Width: 17.4 inches (44.2 cm) Depth: 15.3 inches (38.
Summit “i” Series Switch Specifications Table 78: Summit 400-48t specifications Physical and Environmental Dimensions Height: 1.7 inches (4.3 cm) Width: 17.4 inches (44.2 cm) Depth: 17.0 inches (43.2 cm) Weight Weight: 11 lbs (4.98 kg) Heat Dissipation, Watts/BTU 160 W/0.152 BTU per second Acoustic Sound Sound Power in accordance with EN 300 753 (10-1997) Sound Power: 56 dBA per ISO 7779 Sound Pressure in accordance with NEBS GR-63, Issue 2 Bystander Sound Pressure: 44 dBA rear @ 0.
Switch Technical Specifications Table 80: Summit “i” series model-specific specifications Physical Dimensions and Acoustic Sound Summit1i Height: 3.5 inches (8.9 cm) Width: 17.25 inches (43.8 cm) Depth: 19.0 inches (48.3 cm) Weight: 22 lbs (10 kg) Summit5i Height: 3.5 inches (8.9 cm) Width: 17.25 inches (43.8 cm) Depth: 19.0 inches (48.3 cm) Weight (single power supply): 21.7 lbs (9.8 kg) Weight (dual power supply): 27.4 lbs (12.
Summit “i” Series Switch Specifications Table 80: Summit “i” series model-specific specifications (Continued) Summit48si Height: 1.75 inches (4.45 cm) Width: 17.3 inches (43.9 cm) Depth, including PSU handle: 18.25 inches (46.41 cm) Weight: 14 lbs (6.35 kg) Acoustic Sound: With AC PS: - Sound Power in accordance with EN 300 753 (10-1997) - Sound Power = High 68 dBA per ISO 7779 Low 60 dBA per ISO 7779 - Declared Sound Power = High 7.0 belsA per ISO 7779 & ISO 9296 Low 6.
Switch Technical Specifications Table 80: Summit “i” series model-specific specifications (Continued) Current Rating 100-120 VAC 10 A 200-240 VAC 5 A Summit48i AC Line Frequency 50 Hz to 60 Hz Nominal Operating Voltage 85 VAC to 250 VAC Current Rating 100-120 VAC 3 A 200-240 VAC 1.5 A Summit48si AC Line Frequency 50 Hz to 60 Hz, auto ranging Nominal Operating Voltage 100 VAC to 240 VAC Current Rating 100-120 VAC 3 A 200-240 VAC 1.
Alpine 3800 Series Switch Specifications Table 81: Alpine 3800 common specifications (Continued) Electromagnetic Interference/ Compatibility (EMI/EMC) Certifications and Standards FCC CFR 47 Part 15 Class A CAN/ICES-003 Class A 89/336/EEC EMC Directive EN55022:1998 Class A CISPR22:1997 Class A EN55024:1998 includes IEC 6100-4-2, 3, 4, 5, 6, 11 EN6100-3-2, 3-3 VCCI Class A (Japan) AS/NZS 3548 (Australia/New Zealand) NOM/NYCE (Mexico) MIC Mark (Korea) GOST (Russia) CNS 13438 Class A (Taiwan) Telecommunicat
Switch Technical Specifications Alpine 3804 Height: 10.5 inches (26.65 cm) Width: 17.32 inches (44 cm) Depth: 15.53 inches (39.42 cm) Weight, empty chassis: 30 pounds (13.6 kg) Weight, fully loaded chassis: 68 pounds (30.9 kg) Weight, each power supply: 14 pounds (6.4 kg) Weight, each module: 3 pounds (1.4 kg) Acoustic Sound in Full Chassis: Dual AC PS: - Sound Power in accordance with EN 300 753 (10-1997) - Sound Power = 72 dBA per ISO 7779 - Declared Sound Power = 7.
BlackDiamond 6800 Series Switch Specifications Alpine 3804 AC Line Frequency 50 Hz to 60 Hz Nominal Operating Voltage 90 VAC to 264 VAC, auto-ranging Current Rating 100-120 VAC 5.6 A 200-240 VAC 2.3 A -40 - -70 VDC 16.5 A Alpine 3802 AC Line Frequency 50 Hz to 60 Hz Nominal Operating Voltage 90 VAC to 264 VAC, auto-ranging Current Rating 100-120 VAC 3.1 A 200-240 VAC 1.3 A -40 - -70 VDC 7.5 A max (-48 VDC 6.
Switch Technical Specifications Table 84: BlackDiamond 6800 model-specific unique specifications Physical Dimensions and Acoustic Sound BlackDiamond Switches BlackDiamond 6816 Height: 61.25 inches (155.6 cm) Width, without rack mount ears: 17.50 inches (44.5 cm) Width, with rack mount ears: 19 inches (48.3 cm) Depth: 19.10 inches (48.51 cm) Weight, empty chassis: 140 lbs (63.5 kg) Weight, fully loaded chassis: 360 lbs (163.3 kg) Weight, each power supply: 30 to 33 lbs (13.6 to 15.
BlackDiamond 6800 Series Switch Specifications Table 84: BlackDiamond 6800 model-specific unique specifications (Continued) BlackDiamond 6804 Height: 19.25 inches (48.9 cm) Width: 17.32 inches (44 cm) Depth: 19 inches (48.26 cm) Weight, empty chassis: 57.5 lbs (26.1 kg) Weight, fully loaded chassis: 161 lbs (73 kg) Weight, each power supply: 30 to 33 lbs (13.6 to 15.0 kg) Weight, each module: 5 lbs (2.
Switch Technical Specifications Table 84: BlackDiamond 6800 model-specific unique specifications (Continued) Temperature power-off Original supply, not DC and not high-output: 75° C (167° F) DC Supply: Stand-alone: 65° to 70° C (149° to 158° F) In chassis: 70° C (158° F) High-output: 75° C (167° F) EPS-LD Power Supply Specifications Table 85 lists the electrical specifications for each EPS-LD unit.
Power Connector Specifications Power Connector Specifications Table 87: Pinouts for Summit 300-24 switch redundant power connector Diagram 14 1 8 7 ES4K028A Pin Wire Label 1 GND 2 12V 3 12V 4 12V 5 12V 6 -50 V 7 -50 V rtn 8 GND 9 NC 10 rps_pres 11 EXT_CON 12 status_1 13 status_2 14 GND Figure 178: Three-wire Cable Harness for the Summit 48si DC power supply EWUG005 Table 88: Wire-to-pin connection specifications for the Summit 48si DC power cable Pin Wire Color Lead W
Switch Technical Specifications Table 89: Connector specifications for the EPS-T redundant power connector Diagram 14 7 8 1 ES4K028 338 Pin Wire Label 1 NC 2 GND 3 GND 4 GND 5 GND 6 +12 V 7 +12 V 8 RS+ 9 GND 10 INT PG 11 EXT_CON 12 EXT_PG 13 +5 V 14 +12 V Extreme Networks Consolidated "e" and "i" Series Hardware Installation Guide
C Module Technical Specifications This appendix provides the technical specifications for GBICs, mini-GBICs, XENPAKs, and the Alpine and BlackDiamond modules.
Module Technical Specifications • FM-24SFi and FM-24MFi module specifications on page 352 • FM-8Vi module specifications on page 353 • WM-4T1i and WM-4E1i module specifications on page 355 • WM-1T3i module specifications on page 356 BlackDiamond modules: • MSM specifications on page 357 • G8Xi, G8Ti, and G12SXi module specifications on page 358 • G16X3 and G24T3 module specifications on page 359 • F48Ti and F96Ti module specifications on page 360 • F32Fi module specifications on page 363 • PoS module speci
GBIC Specifications Table 90: GBIC types and maximum distances (Continued) Mhz•Km Rating Standard Media Type LX70 (1550 nm optical window) 10/125 µm single-mode fiber LX100 (1550 nm optical window) 10/125 µm single-mode fiber UTP Category 5 UTP cable – Maximum Distance (Meters) 70,000 100,000 – 80 *Extreme Networks proprietary. Connections between two Extreme Networks 1000BASE-LX interfaces can use a maximum distance of 10,000 meters.
Module Technical Specifications Table 93: ZX GBIC specifications Parameter Minimum Typical Maximum Optical output power -4 dBm -3 dBm -1 dBm Center wavelength 1540 nm 1550 nm 1570 nm Transceiver Receiver Optical input power sensitivity -23.
Mini-GBIC Specifications Table 96: LX100 GBIC specifications (Continued) Parameter Minimum Optical input power sensitivity -29 dBm Typical Maximum Optical input power maximum Operating wavelength -7 dBm 1546 nm 1551 nm 1557 nm Table 97: UTP GBIC specifications Media Type Bit Error Rate (Errors per Second) Category 5 UTP cable 10-12 Data Rate 1 Gbps Min Distance (Meters) Max Distance (Meters) 2 80 Mini-GBIC Specifications Table 98 through Table 100 list the specifications for the mini-GBI
Module Technical Specifications Table 100: ZX mini-GBIC specifications Parameter Minimum Typical Maximum Optical output power -2 dBm 0 dBm 3 dBm Center wavelength 1540 nm 1550 nm 1570 nm Transceiver Receiver Optical input power sensitivity -23 dBm Optical input power maximum Operating wavelength -3 dBm 1540 nm 1550 nm 1570 nm NOTE The 1000Base-BX mini-GBIC consists of two SFP optical devices, the 1000BASE-BX-U mini-GBIC and the 1000BASE-BX-D mini-GBIC, which must be used as a pair to all
XENPAK Specifications SR XENPAK Table 102 describes the specifications for the SR XENPAK module. Table 102: SR XENPAK module specifications Parameter Minimum Average launch power min -7.3 dBm Maximum Channel insertion loss: 62.5 μm (160/200 MHz*km) 62.5 μm (200 MHz*km) 50 μm (400 MHz*km) 50 μm (500 MHz*km) 50 μm (2000 MHz*km) Wavelength range 1.6 1.6 1.7 1.8 2.6 840 nm dB dB dB dB dB 860 nm Operating distance range (depends on type and modal bandwidth) 62.5 μm MMF (160 MHz*km) 62.
Module Technical Specifications Table 104: ER XENPAK module specifications Parameter Minimum Maximum Distance range: 5 dBm attentuation 2m 40 km Maximum receiver sensitivity in OMA -14.1 dBm The ER XENPAK supports SMF and has an SC connector. ZR XENPAK Table 105 describes the specifications for the ZR XENPAK module.
XENPAK Specifications Table 105: ZR XENPAK module specifications Parameter Minimum Maximum Optical link loss 11 dB 22 dB Optical dispersion 0 ps/nm 1600 ps/nm General Distance 80 km The ZR XENPAK supports SMF and has an SC connector. WARNING! To prevent permanent damage to the ZR XENPAK and other equipment: always check the optical input power of the receiver before inserting the fiber. The maximum optical input power for the receiver is -7 dBm.
Module Technical Specifications CX4 XENPAK NOTE CX4 XENPAKs are also supported with Extreme Networks devices; contact your vendor to obtain these. Alpine Modules Table 107: SMMi module specifications Physical Dimensions Height: 1.0 inches (2.5 cm) Width: 16.25 inches (41.3 cm) Depth: 8.0 inches (20.3 cm) Weight: 4 lbs (1.8 kg) Safety Certifications and Standards NEBS/Telcordia, Type IV, Level 3, GR-63 Issue2 UL 1950 3rd Edition, listed accessory cUL listed accessory to CAN/CSA-C22.2 No.
Alpine Modules Table 108: GM-4Ti, GM-4Xi, and GM-4Si module specifications Height: 1.5 inches (3.8 cm) Width: 16.25 inches (41.3 cm) Depth: 8.0 inches (20.3 cm) Weight: 4 lbs (1.8 kg) Safety Certifications and Standards NEBS/Telcordia, Type IV, Level 3, GR-63 Issue2 UL 1950 3rd Edition, listed accessory cUL listed accessory to CAN/CSA-C22.2 No.
Module Technical Specifications Table 110: GM-16X3 and GM-16T3 module specifications Physical Dimensions Height: 1.5 inches (3.8 cm) Width: 16.25 inches (41.3 cm) Depth: 8.0 inches (20.3 cm) Weight: 3.75 lbs (1.7 kg) (GM-16X3 module) Weight: 4 lbs (1.8 kg) (GM-16T3 module) Safety Certifications and Standards UL 60950 3rd Edition, listed accessory cUL listed accessory to CAN/CSA-C22.2 No.
Alpine Modules Table 111: FM-32Ti and FM-24Ti module specifications Physical Dimensions Height: 1.5 inches (3.8 cm) Width: 16.25 inches (41.3 cm) Depth: 8.0 inches (20.3 cm) Weight: 4 lbs (1.8 kg) Safety Certifications and Standards NEBS/Telcordia, Type IV, Level 3, GR-63 Issue2 UL 1950 3rd Edition, listed accessory cUL listed accessory to CAN/CSA-C22.2 No.
Module Technical Specifications Table 113: FM-24SFi and FM-24MFi module specifications Physical Dimensions Height: 1.5 inches (3.8 cm) Width: 16.25 inches (41.3 cm) Depth: 8.0 inches (20.3 cm) Weight: 4 lbs (1.8 kg) Safety Certifications and Standards NEBS/Telcordia, Type IV, Level 3, GR-63 Issue2 UL 1950 3rd Edition, listed accessory cUL listed accessory to CAN/CSA-C22.2 No.
Alpine Modules . Table 115: FM-24MFi optical interface specifications Parameter Minimum Typical Maximum Transceiver Optical output power -20 dBm Center wavelength 1310 nm -14 dBm Receiver Optical input power sensitivity -31 dBm Optical input power maximum Operating wavelength -14 dBm 1310 nm General Total system budget 11 dBm Table 116: FM-8Vi module specifications Physical Dimensions Height: 1.5 inches (3.8 cm) Width: 16.25 inches (41.3 cm) Depth: 8.0 inches (20.3 cm) Weight: 5 lbs (2.
Module Technical Specifications The connector on the FM-8Vi requires a male terminated RJ-21 cable. The FM-8Vi uses 8 of the 25 pairs in the cable. Because the RJ-21 standard was established for telecommunications, one wire of each pair is designated as the tip side and the other wire is designated as the ring side. Table 117 lists the pin numbers on the connector, the color code for the wires, and the associated port number for the wire pair.
Alpine Modules Table 118: WM-4T1i and WM-4E1i module specifications Physical Dimensions Height: 1.5 inches (3.8 cm) Width: 16.25 inches (41.3 cm) Depth: 8.0 inches (20.3 cm) Weight: 5 lbs (2.7 kg) Safety Certifications and Standards NEBS/Telcordia, Type IV, Level 3, GR-63 Issue2 UL 1950 3rd Edition, listed accessory cUL listed accessory to CAN/CSA-C22.2 No.
Module Technical Specifications Table 119: WM-1T3i module specifications Physical Dimensions Height: 1.5 inches (3.8 cm) Width: 16.25 inches (41.3 cm) Depth: 8.0 inches (20.3 cm) Weight: 5 lbs (2.7 kg) Safety Certifications and Standards NEBS/Telcordia, Type IV, Level 3, GR-63 Issue2 UL 1950 3rd Edition, listed accessory cUL listed accessory to CAN/CSA-C22.2 No.
BlackDiamond Modules BlackDiamond Modules Table 120: MSM specifications Physical Dimensions Height: 1.6 inches (4.1 cm) Width: 15.1 inches (38.4 cm) Depth: 16.0 inches (40.6 cm) Weight: 6.25 lbs (2.81 kg) Safety Certifications and Standards NEBS/Telcordia, Type IV, Level 3, GR-63 Issue2 UL 60950 3rd Edition, listed accessory cUL listed accessory to CAN/CSA-C22.2 No.
Module Technical Specifications Table 121: G8Xi, G8Ti, and G12SXi module specifications Physical Dimensions Height: 1.6 inches (4.1 cm) Width: 15.1 inches (38.4 cm) Depth: 16.0 inches (40.6 cm) Weight: 6.25 lbs (2.81 kg) Safety Certifications and Standards NEBS/Telcordia, Type IV, Level 3, GR-63 Issue2 UL 60950 3rd Edition, listed accessory cUL listed accessory to CAN/CSA-C22.2 No.
BlackDiamond Modules Table 122: G16X3 and G24T3 module specifications Physical Dimensions Height: 1.6 inches (4.1 cm) Width: 15.1 inches (38.4 cm) Depth: 16.0 inches (40.6 cm) Weight: 7.5 lbs (2.81 kg) Safety Certifications and Standards UL 60950 3rd Edition, listed accessory cUL listed accessory to CAN/CSA-C22.2 No.
Module Technical Specifications Table 123: F48Ti and F96Ti module specifications Physical Dimensions Height: 1.6 inches (4.1 cm) Width: 15.1 inches (38.4 cm) Depth: 16.0 inches (40.6 cm) Weight: 6.25 lbs (2.81 kg) Safety Certifications and Standards NEBS/Telcordia, Type IV, Level 3, GR-63 Issue2 UL 60950 3rd Edition, listed accessory cUL listed accessory to CAN/CSA-C22.2 No.
BlackDiamond Modules Figure 179: One RJ-21 port yields 12 10/100 ports Spare Port 12 Port 11 Port 10 Port 9 Port 8 Port 7 Port 6 Port 5 Port 4 Port 3 Port 2 Port 1 Spare Port 12 Port 11 Port 10 Port 9 Port 8 Port 7 Port 6 Port 5 Port 4 Port 3 Port 2 Port 1 BD_037 Table 124 describes the pinouts for the RJ-21 port.
Module Technical Specifications Table 125: Output signals for the RJ-21 connector RJ-21 Pin Numbers Output Signal RJ-21 Pin Numbers Output Signal 1 RxD (-) 26 RxD (+) 2 TxD (-) 27 TxD (+) 3 RxD (-) 28 RxD (+) 4 TxD (-) 29 TxD (+) 5 RxD (-) 30 RxD (+) 6 TxD (-) 31 TxD (+) 7 RxD (-) 32 RxD (+) 8 TxD (-) 33 TxD (+) 9 RxD (-) 34 RxD (+) 10 TxD (-) 35 TxD (+) 11 RxD (-) 36 RxD (+) 12 TxD (-) 37 TxD (+) 13 RxD (-) 38 RxD (+) 14 TxD (-) 39 TxD (+) 15 Rx
BlackDiamond Modules Table 127: F32Fi module specifications Physical Dimensions Height: 1.6 inches (4.1 cm) Width: 15.1 inches (38.4 cm) Depth: 16.0 inches (40.6 cm) Weight: 5.0 lbs (2.27 kg) Safety Certifications and Standards NEBS/Telcordia, Type IV, Level 3, GR-63 Issue2 UL 60950 3rd Edition, listed accessory cUL listed accessory to CAN/CSA-C22.2 No.
Module Technical Specifications Table 128: PoS module specifications Physical Dimensions Height: 1.6 inches (4.1 cm) Width: 15.1 inches (38.4 cm) Depth: 16.0 inches (40.6 cm) Weight: 5.25 lbs (2.38 kg) Safety Certifications and Standards NEBS/Telcordia, Type IV, Level 3, GR-63 Issue2 UL 60950 3rd Edition, listed accessory cUL listed accessory to CAN/CSA-C22.2 No.
BlackDiamond Modules Table 130: ARM module specifications Physical Dimensions Height: 1.6 inches (4.1 cm) Width: 15.1 inches (38.4 cm) Depth: 16.0 inches (40.6 cm) Weight: 5.25 lbs (2.38 kg) Safety Certifications and Standards NEBS/Telcordia, Type IV, Level 3, GR-63 Issue2 UL 60950 3rd Edition, listed accessory cUL listed accessory to CAN/CSA-C22.2 No.
Module Technical Specifications Table 131: MPLS module specifications Physical Dimensions Height: 1.6 inches (4.1 cm) Width: 15.1 inches (38.4 cm) Depth: 16.0 inches (40.6 cm) Weight: 5.25 lbs (2.38 kg) Safety Certifications and Standards NEBS/Telcordia, Type IV, Level 3, GR-63 Issue2 UL 60950 3rd Edition, listed accessory cUL listed accessory to CAN/CSA-C22.2 No.
BlackDiamond Modules Table 132: ATM module specifications Physical Dimensions Height: 1.6 inches (4.1 cm) Width: 15.1 inches (38.4 cm) Depth: 16.0 inches (40.6 cm) Weight: 5.25 lbs (2.38 kg) Safety Certifications and Standards NEBS/Telcordia, Type IV, Level 3, GR-63 Issue2 UL 60950 3rd Edition, listed accessory cUL listed accessory to CAN/CSA-C22.2 No.
Module Technical Specifications Common Module Specifications Table 134 describes the specifications common to all modules.
D Installing GBICs and Mini-GBICs GBIC and mini-GBIC interfaces provide installable high-performance ports for Extreme Networks switches. GBICs can be installed in the following switches: • Summit1i • Summit5i • Summit7i • Summit48i Mini-GBICs can be installed in the following switches: • Summit 200 “e” series • Summit 300 “e” series • Summit 400 “e” series • Summit 48si This appendix provides installation instructions for GBICs and mini-GBICs.
Installing GBICs and Mini-GBICs Requirements for the LX100 GBIC This section describes the requirements for the LX100 GBIC. Read the information in this section before you install an LX100 GBIC. If you have an Alpine 3800 series switch populated with a GM-4Xi module, do one of the following: • Install a maximum of three LX100 GBICs per GM-4Xi module; the fourth GBIC slot must remain empty. • Install two or fewer LX100 GBICs per GM-4Xi module, and leave the remaining GBIC slots empty.
Installing GBICs Safety Information Before you install or replace a GBIC, read the safety information in this section. CAUTION GBICs can emit invisible laser radiation. Avoid direct eye exposure to the beam when fiber optic connections are unplugged.
Installing GBICs and Mini-GBICs Installing or Replacing a GBIC You can add and remove GBICs from a Extreme Networks switch without powering off the system. Figure 180 shows the three types of GBICs. Figure 180: GBIC types Handle Tab Tab Module A Module B Module C EW_GBIC CAUTION Use only Extreme-approved optic devices within Extreme switches. Optical modules provided by Extreme Networks are compliant for use with Extreme systems.
Installing Mini-GBICs Installing Mini-GBICs The following types of mini-GBIC interfaces are available: • SX mini-GBIC, which conforms to the 1000BASE-SX standard • LX mini-GBIC, which conforms to the 1000BASE-LX standard • ZX mini-GBIC, which conforms to the IEEE 802.3z standard • 1000BX bidirectional mini-GBIC, which conforms to the IEEE 802.
Installing GBICs and Mini-GBICs Installing or Replacing a Mini-GBIC You can install or replace mini-GBICs in a Summit 400-48t switch, Summit48si switch, BlackDiamond G16X3 module, or Alpine GM-16X3 module without powering off the system. Figure 181 shows the two types of mini-GBICs. Figure 181: Mini-GBIC modules Module A Module B XM_024 CAUTION Mini-GBICs can emit invisible laser radiation. Avoid direct eye exposure to the beam. NOTE Mini-GBICs can be installed only in the SFP mini-GBIC receptacles.
Installing Mini-GBICs NOTE Disconnect the fiber-optic cable from a mini-GBIC before removing the mini-GBIC from the switch. To remove a mini-GBIC similar to Module A in Figure 181, press and hold the black plastic tab at the bottom of the connector to release the mini-GBIC, and pull the mini-GBIC out of the SFP receptacle. To remove a mini-GBIC similar to Module B in Figure 181, rotate the front handle and pull the mini-GBIC out of the SFP receptacle.
Installing GBICs and Mini-GBICs 376 Extreme Networks Consolidated "e" and "i" Series Hardware Installation Guide
E Installing the Summit Option Card and XENPAK Modules The Summit XEN Card or XGM-2xn Option Card is an additional card that adds one or two 10 Gigabit uplink modules to the back of the Summit 400-48t switch.
Installing the Summit Option Card and XENPAK Modules Table 135: ZR XENPAK Combinations Left Slot Right Slot ZR XENPAK SR XENPAK This appendix provides instructions to install the option card and the uplink module. NOTE The Summit XGM-2xn Option Card requires ExtremeWare 7.4 or later. Be sure to upgrade your Summit switch to ExtremeWare 7.4 (or later) before you install a Summit XGM-2xn Option Card.
Installing a XENPAK Optical Transceiver Module Figure 183: Installing the Summit XGM-2xn option card Summit Option Card ES4K042 5 Using the screws from the cover plate, secure the option card to the back panel of the switch. 6 Install the XENPAK optical transceiver modules as described in the next section, “Installing a XENPAK Optical Transceiver Module”. CAUTION Be sure that the option slot always has either an installed Summit option card or a faceplate over the opening.
Installing the Summit Option Card and XENPAK Modules CAUTION The XENPAK module can emit invisible laser radiation. Avoid direct eye exposure to the beam when fiber optic connections are unplugged. NOTE Compliance Information: Compliant with EN60825-1+A2:2001 for European Union; Compliant with FCC 21 CFR Chapter 1, Subpart; Class 1 Laser Product; Refer to switch or I/O module specific documentation for further compliance information when this optic device is installed within a system.
Removing a XENPAK Module NOTE To ensure that your module is undamaged upon installation, you can correlate factory test data with your installation site test data by consulting the average power reference values shown on the XENPAK module test data sheet (Part No. 121074-00) enclosed with your module. Removing a XENPAK Module To remove a XENPAK module: 1 Disconnect the fiber-optic cable from the XENPAK module and install dust covers over the module connectors.
Installing the Summit Option Card and XENPAK Modules 382 Extreme Networks Consolidated "e" and "i" Series Hardware Installation Guide
Index Numerics 10 Gigabit uplinks 10GX3 module 82, 86, 377 264 A A3cMi module, See ATM module A3cSi module, See ATM module AC power socket Summit 200 switches Summit 300-24 switch Summit 300-48 switch Summit 400-24 switches Summit 400-48t switch Accounting and Routing Module, See ARM acoustic sound Summit 200-24 switch Summit 200-48 switch Summit 300-24 switch Summit 300-48 switch Summit 400-24p switch Summit 400-24t switch Summit 400-48t switch Summit48i Summit48si Summit5i Summit7i agency certification
Index LEDs port connections power supply power-off specifications amperage requirements for UPS amperage, calculating ANSI standards ARM description diagnostic service ports GPP subsystem LEDs network processors specifications ATM module concatenated mode diagnostic service ports electromagnetic compatibility GPP subsystem LEDs network processors optical interface characteristics optical interfaces OC-3 multimode OC-3 single-mode specifications automatic failover setting up Summit 200-24 rules Summit 200-4
Index BlackDiamond 6816 rear view Alpine 3802 (AC) Alpine 3802 (DC) Alpine 3804 Alpine 3808 BlackDiamond 6804 BlackDiamond 6808 checking the installation Alpine 3802 switch (DC) BlackDiamond switch Summit switch Class 1 laser device (warning) combination ports defined Summit 200 Summit 300 Summit 400-24 Summit 400-48t commands clear log static configure switch show memory synchronize commercial building standards compact flash components Alpine 3802 switch Alpine 3804 switch Alpine 3808 switch BlackDiamond
Index location on Summit 400 dual uplink ports Summit 200 switches Summit 300-24 switch Summit 300-48 switch Summit 400-24 switch Summit 400-48t switch 82 60 66 70 80 85 E electrical codes electromagnetic compatibility Alpine 3800 series switch ARM ATM module BlackDiamond 6800 series switch F32Fi module F48Ti module F96Ti module FM-24MFi module FM-24SFi module FM-24Ti module FM-32Ti module FM-8Vi module G12SXi module G16X3 module G24T3 module G8Ti module G8Xi module GM-16T3 module GM-16X3 module GM-4Si m
Index fiber optic cable bend radius care fiber port status LEDs Summit 200 switches Summit 300-24 switch Summit 300-48 switch Summit 400-24 switch Summit 400-48t switch FM-24MFi module description specifications FM-24SFi module description specifications FM-24Ti module description specifications FM-32Pi module FM-32Ti module description specifications FM-8Vi module description specifications free-standing installation, Summit switch full-duplex Summit 200 switches Summit 300-24 switch Summit 300-48 switch
Index Summit 400-24 switches Summit 400-48t switch hot insert power supply, Summit48si switch humidity restrictions 77 82 103 36 I I/O modules, Alpine description environmental requirements hot-swapping installing LEDs removing verifying the installation I/O modules, BlackDiamond description environmental requirements hot-swapping installing LEDs removing verifying the installation identification, cable identifying ZX GBIC Rev 03 industry design standards installation AC power supply, Alpine switch Alpin
Index MGMT LED on Summit 400-48t 83 mini-GBIC 23, 373 installing 374 LED error 375 optical budget 54 removing 375 safety 373 specifications 1000BX 344 LX 343 SZ 343 ZX 344 modem port Alpine 3802 switch 176 BlackDiamond 6800 switch 255 Summit7i switch 96 MPLS module description 287 diagnostic service ports 288 GPP subsystem 287 LEDs 294 network processors 287 specifications 366 MSM booting 256 console port 255 description 217, 253 hot-swapping 257 installing 257 LEDs 257 management port 255 master, slave fu
Index power cable retaining bracket installing loosening for cable removal power cable, external Alpine PoE module connecting power requirements dual power supplies general power cable power supply power socket Summit 200 switches Summit 300-24 switch Summit 300-48 switch Summit 400-24 switch Summit 400-48t switch Summit1i switch Summit48i switch Summit48si switch Summit5i switch Summit7i switch power specifications Alpine switches BlackDiamond 6800 switches EPS-160 power supply EPS-LD Summit 300 switches
Index GBIC mini-GBIC Summit 300-48 power supply Summit 48si AC power supply XENPAK modules requirements DC cable DC cables DC power RJ-45 connectors service access UTP GBC reset button Summit1i switch Summit48i switch Summit48si switch Summit5i switch Summit7i switch RJ-21 pinouts port RJ-21 connector RJ-45 connector jackets running cable bend radius fiber optic UTP cable distances fiber optic cable slack 372 375 123 128 381 134 163, 249 51 48 40 370 90 100 104 93 96 361 361 361 48 45 46 45 47 46 45 S sa
Index front view MAC address port connections rear view specifications Summit 300-48 switch console port front view load sharing power supplies port connections rear view specifications Summit 400 switches LEDs Summit 400-24 switches AC power socket LEDs physical description port connections Summit 400-24p switch front view LEDs rear view specifications Summit 400-24t switch front view LEDs rear view specifications Summit 400-48t switch AC power socket front view LEDs physical description port connections
Index G8Ti module G8Xi module GM-4Si module GM-4Ti module GM-4Xi module MPLS module MSM PoS module SMMi module WM-1T3i module WM-4E1i module WM-4T1i module temperature monitoring wiring closet text conventions tools Alpine 3800 series fan tray installation Alpine 3800 series rack installation Alpine 3800 series rack removal Alpine 3804 AC power supply Alpine 3804 DC power supply 133, Alpine 3804 fan tray removal Alpine 3808 AC power supply Alpine 3808 DC power supply 133, Alpine 3808 fan tray removal Alpin
Index ER XENPAK LR XENPAK LX4 XENPAK SR XENPAK ZR XENPAK XENPAK module installation supported types 345 345 347 345 346 297 377 Z ZR XENPAK 394 346, 377 Extreme Networks Consolidated "e" and "i" Series Hardware Installation Guide
