Extreme Networks Consolidated Hardware Guide Extreme Networks, Inc. 3585 Monroe Street Santa Clara, California 95051 (888) 257-3000 http://www.extremenetworks.com Published: December 2002 Part number: 100093-00 Rev.
©2002 Extreme Networks, Inc. All rights reserved. Extreme Networks and BlackDiamond are registered trademarks of Extreme Networks, Inc. in the United States and certain other jurisdictions.
Contents Preface Part 1 Chapter 1 Introduction 21 Conventions 22 Related Publications 22 About This Guide How To Use This Guide 23 24 Common Features Summary of Common Switch Features Software Images 27 Full-Duplex Support 28 Management Ports 28 Mini-GBIC Type and Hardware/Software Support Mini-GBIC Types and Specifications Safety Information Preparing to Install or Replace a Mini-GBIC Installing and Removing a Mini-GBIC 28 28 30 30 30 GBIC Type and Hardware/Software Support GBIC Media Ty
Part 2 Site Planning Chapter 2 Site Preparation Part 3 Chapter 3 Chapter 4 Planning Your Site Step 1: Meeting Site Requirements Step 2: Evaluating and Meeting Cable Requirements Step 3: Meeting Power Requirements 42 42 42 42 Meeting Site Requirements Operating Environment Requirements Rack Specifications and Recommendations 42 42 51 Evaluating and Meeting Cable Requirements Cabling Standards Cable Labeling and Record Keeping Installing Cable RJ-45 Connector Jackets Radio Frequency Interference Mak
Summit1i Switch Front View GBIC Ports LEDs 71 72 73 Summit1i Switch Rear View Power Sockets Label Reset Button Console Port 73 74 74 74 74 Summit5i Switch Front View GBIC Ports LEDs 75 76 77 Summit5i Switch Rear View Power Sockets Label Reset Button Console Port Management Port 77 77 78 78 78 78 Summit7i Switch Front View GBIC Ports LEDs Reset Button Console Port Modem Port Management Port PCMCIA Slot 78 79 80 81 81 81 81 81 Summit7i Switch Rear View Power Sockets Label 81 82 82 Summit48i Switch
- Contents Summit48si Power Supply LEDs 88 Summit48si Switch Bottom View Labels 88 89 Summit1i, Summit5i, Summit7i, Summit48i, and Summit48si Switch LEDs 90 Summit4 Switch Front View LEDs 90 91 Summit4/FX Switch Front View LEDs 91 92 Summit24 Switch Front View GBIC Ports LEDs 92 93 93 Summit48 Switch Front View GBIC Ports LEDs 94 94 95 Summit4, Summit24, and Summit48 Switch Rear View Power Socket Label Console Port Redundant Power Supply Port Reset Button 95 96 96 96 96 97 Summit4, Summit
Serial Management Console Port Serial Management Modem Port Chapter 5 Part 4 Chapter 6 Chapter 7 104 104 SummitPx1 Application Switch Rear View Power Socket Label 104 105 105 SummitPx1 Application Switch LEDs 105 Summit Switch Installation Mounting the Switch in a Rack Placing the Switch on a Table or Shelf Verifying a Successful Installation 107 111 111 Removing and Installing Summit48si Power Supplies 111 Installing the AC Power Cable Retaining Bracket 112 Removing the AC Power Cable Retain
Removing the Chassis Chapter 8 138 Alpine 3800 Series Switch Power Supplies Power Supply LEDs Chapter 9 Installing the Alpine 3808 and the Alpine 3804 AC Power Supply Verifying a Successful Installation 142 145 Removing the Alpine 3808 and the Alpine 3804 AC Power Supply 145 Supplying Power to the Alpine 3802 AC Power Supply Verifying a Successful Installation 146 146 Installing the Alpine 3808 and the Alpine 3804 DC Power Supply Selecting the Cabling Installing the Power Supply Attaching the Cab
Chapter 11 Part 5 Chapter 12 Chapter 13 WM-1T3i Module I/O Module LEDs 176 176 Installing I/O Modules 177 Verifying the I/O Module Installation LED Indicators Displaying Slot Status Information 179 179 179 Removing I/O Modules 179 Alpine 3800 Series Switch Fan Tray Alpine 3808 Fan Tray 181 Alpine 3804 Fan Tray 182 Alpine 3802 Fan Tray 182 Removing the Alpine 3808 or Alpine 3804 Fan Tray 183 Installing the Alpine 3808 or Alpine 3804 Fan Tray 184 BlackDiamond Switch BlackDiamond 6800 Seri
Removing the Chassis Chapter 14 209 BlackDiamond 6800 Series Switch Power Supplies 220 VAC Power Supplies 110 VAC Power Supplies DC Power Supplies Chapter 15 Installing a BlackDiamond 6800 Series Power Supply AC Power Cable and Plug Selecting the DC Cabling Preparing the DC Cabling Attaching the DC Cabling Verifying a Successful Installation 215 218 219 219 220 221 Removing a BlackDiamond 6800 Series Power Supply 221 BlackDiamond 6800 Series Management Switch Module MSM64i Activity MSM64i Memory MS
Removing I/O Modules Chapter 17 Part 6 Chapter 18 Part 7 Appendix A 275 BlackDiamond 6800 Series Switch Fan Tray BlackDiamond 6816 Fan Trays 277 BlackDiamond 6808 Fan Tray 278 BlackDiamond 6804 Fan Tray 279 Removing a BlackDiamond 6800 Series Fan Tray 280 Installing a BlackDiamond 6800 Series Fan Tray 282 Switch Operation Initial Switch and Management Access Connecting Equipment to the Console Port 287 Logging In for the First Time 288 Appendixes Safety Information Important Safety Inform
- Contents Extreme Networks Consolidated Hardware Guide
Figures 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 29 30 31 32 33 Extreme Networks Consolidated Hardware Guide Mini-GBIC modules Total optical system budgets for long range GBICs GBIC modules Airflow through the Alpine 3808 chassis Airflow through the Alpine 3804 chassis Airflow through the Alpine 3802 chassis Airflow through the BlackDiamond 6816 chassis Airflow through the BlackDiamond 6808 chassis Airflow through the BlackDiamond 6804 chassis Ensure that you use an ESD
34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 14 - Figures Front view of the Summit24 switch Front view of the Summit48 switch Rear view of the Summit4, Summit4/FX, Summit24, and Summit48 switch Front view of the Summit24e2 switch Rear view of the Summit24e2 switch Front view of the Summit24e3 switch View of the LEDs and ports on the Summit24e3 switch Rear view of the Summit24e3 switch Front view of the SummitPx1 a
80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 Extreme Networks Consolidated Hardware Guide RJ-21 connector FM-24SFi module FM-24MFi module FM-8Vi module WM-4T1i module WM-4E1i module WM-1T3i module Alpine 3808 fan tray Alpine 3804 fan tray Front view of the BlackDiamond 6816 switch with sample I/O modules Rear view of the BlackDiamond 6816 switch Front view of the BlackDiamond 6808 switch with sam
124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 16 - Figures One RJ-21 port yields 12 10/100 ports 246 RJ-21 connector 248 F32Fi module 249 P3cSi and P3cMi modules 250 P12cSi and P12cMi modules 250 Showing the components and LEDs of the PoS module 253 Accounting and Routing Module (ARM) 258 Showing the components and LEDs of the ARM module 259 MultiProtocol Label Switching (MPLS) module 261 Showing the components and LEDs of the MPLS module 263 A3cSi and A3cMi modules 266 Showi
Tables 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 29 30 31 32 Extreme Networks Consolidated Hardware Guide Notice icons 22 Text conventions 22 Power LED activity for switches running ExtremeWare version 6.
33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 18 - Tables Port configurations available on Alpine I/O modules Supported power supplies for the Alpine 3800 series switch Alpine 3802 switch LEDs Alpine 3800 chassis height measurements Supported power supplies for the Alpine 3800 series switch Alpine 3808 and Alpine 3804 power supply LED Alpine 3802 power supply LEDs Source DC power specifications for the Alpine 3808
79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 Extreme Networks Consolidated Hardware Guide Summit non-“i” series switch specifications Summit24e2 switch specifications Summit24e3 switch specifications SummitPx1 application switch specifications Alpine 3800 series switch specifications BlackDiamond 6800 series switch specifications Common switch specifications SMMi module specifications GM-4Ti, GM-4Xi, and GM-4Si module specifications GM-WDMi module specifications F
- Tables Extreme Networks Consolidated Hardware 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 required information to install an Extreme Networks Summit™ switch, Alpine™switch, or BlackDiamond® switch.
Preface Conventions Table 1 and Table 2 list conventions used throughout this guide. Table 1: Notice icons Icon Notice Type Alerts you to... Note Important features or instructions. Caution Risk of personal injury, system damage, or loss of data. Warning Risk of severe personal injury. Table 2: Text conventions Convention Description Screen displays This typeface represents information as it appears on the screen, or command syntax.
About This Guide Documentation for Extreme Networks products is available from the Extreme Networks website at the following location: http://www.extremenetworks.
Preface How To Use This Guide Each chapter of this guide contains information on how to successfully operate your Extreme Networks switch. The Summit-, Alpine-, and BlackDiamond-specific chapters contain information that is applicable to that family of switch only. All other chapters are applicable to any Extreme Networks switch. For switch-specific information, be sure to read the applicable switch-specific chapter.
Part 1 Common Features
1 Summary of Common Switch Features This chapter describes the features that are shared in common by the Extreme Networks family of switches.
Summary of Common Switch Features Full-Duplex Support Extreme Networks switches provide full-duplex support for all ports. This means that frames can be transmitted and received simultaneously, which, in effect, doubles the bandwidth that is available on a link. Most ports on an Extreme Networks switch autonegotiate for half-duplex or full-duplex operation. Gigabit Ethernet and 100BASE-FX ports operate in full-duplex mode only in accordance with technical standards.
Mini-GBIC Type and Hardware/Software Support Table 4 describes the specifications for the SX mini-GBIC interface, and Table 5 describes the specifications for the LX mini-GBIC interface. Table 4: SX mini-GBIC specifications Parameter Minimum Typical Maximum Transceiver Optical output power -9.
Summary of Common Switch Features Safety Information Before you begin the process of installing or replacing a mini-GBIC, read the safety information in this section. CAUTION Mini-GBICs can emit invisible laser radiation. Avoid direct eye exposure to beam. Mini-GBICs are class 1 laser devices, and they operate at 3.3 V. Use only Extreme Networks-certified mini-GBIC devices.
Mini-GBIC Type and Hardware/Software Support Figure 1: Mini-GBIC modules Module A Module B XM_024 Mini-GBICs are Class 1 laser devices. Use only Extreme-approved devices. NOTE Remove the LC fiber-optic connector from the mini-GBIC prior to removing the mini-GBIC from the switch. CAUTION Mini-GBICs can emit invisible laser radiation. Avoid direct eye exposure to beam.
Summary of Common Switch Features GBIC Type and Hardware/Software Support Most Extreme Networks switches support two types of GBICs: the Parallel ID GBIC and the Serial ID GBIC. The switch can identify the media type for the GBIC that is installed. Initial ExtremeWare software versions do not support Serial ID GBICs. If Serial ID GBICs are installed in a switch with an initial software release, the switch will not bring up the link on GBIC ports.
GBIC Type and Hardware/Software Support Table 7: 1000BASE-SX specifications (continued) Parameter Minimum Typical Maximum Receiver Optical input power sensitivity -17 dBm Optical input power maximum Operating wavelength 0 dBm 830 nm 860 nm Table 8: 100BASE-LX specifications Parameter Minimum Typical Maximum Transceiver Optical output power -11 dBm Center wavelength 1270 nm -3 dBm 1310 nm 1355 nm Receiver Optical input power sensitivity -19 dBm Optical input power maximum Operating wave
Summary of Common Switch Features Identifying ZX GBIC Rev 03 Modules To identify the type of ZX GBIC module you have, look at the label on the top of the ZX GBIC module.
GBIC Type and Hardware/Software Support — 1000BASE-LX — ZX GBIC — ZX Rev 03 — LX70 — UTP GBIC To ensure correct operation of the LX100 GBIC, make sure that you run ExtremeWare 6.1.9 or later on your switch. Table 13: 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 Requirements for the UTP GBIC The UTP GBIC operates in full-duplex mode only.
Summary of Common Switch Features Figure 2: Total optical system budgets for long range GBICs 19.5 dB ZX GBIC ZX GBIC 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 LX70 23.0 dB LX70 20.0 dB 19.0 dB 21.5 dB 30.0 dB LX100 23.0 dB LX100 25.0 dB 23.5 dB ZX GBIC ZX GBIC Rev. 03 29.0 dB 18.0 dB ZX GBIC 21.0 dB 24.5 dB LX100 27.0 dB 24.
GBIC Type and Hardware/Software Support Preparing to Install or Replace a GBIC This section describes the preparation steps that you must perform before inserting and securing a GBIC. CAUTION GBICs can emit invisible laser radiation. Avoid direct eye exposure to beam. To ensure proper installation, complete the following tasks before inserting the GBIC: 1 Inspect and clean the fiber tips, coupler, and connectors. 2 Prepare and clean an external attenuator, if needed. 3 Calculate the link budget.
Summary of Common Switch Features NOTE Remove the SC fiber-optic or the RJ-45 connector from the GBIC prior to removing the GBIC from the I/O module or the switch. CAUTION GBICs can emit invisible laser radiation. Avoid direct eye exposure to beam. To remove the GBIC connector labeled “Module A,” lift up on the front handle and pull the GBIC out of the slot. To remove the GBIC connector labeled “Module B” or “Module C,” gently squeeze the sides to release it, and pull the GBIC out of the slot.
Part 2 Site Planning
2 Site Preparation This chapter describes how to prepare your site for installing Extreme Networks equipment. It contains information on 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 Three major building codes are: • Uniform Building Code—produced by the International Conference of Building Officials (ICBO); 5360 South Workman Mill Road; Whittier, California 90601 USA. www.icbo.org • BOCA Basic Building Code—produced by the Building Officials and Code Administrators (BOCA) International, Inc.; 4051 West Flossmoor Road; Country Club Hills, Illinois 60478 USA. www.bocai.
Site Preparation Table 15: AC power requirements (continued) Switch Type Country Requirements BlackDiamond North America 20 A service receptacle, NEMA L6-20 (locking) for BlackDiamond 110 VAC power supplies. BlackDiamond North America 20 A service receptacle, NEMA L6-20 (locking) for BlackDiamond 220 VAC power supplies. BlackDiamond International 16 A/20 A service receptacle, IEC 60309 for BlackDiamond 220 VAC power supplies.
Meeting Site Requirements Temperature. Extreme Networks equipment generates a significant amount of heat. It is essential that you provide a temperature-controlled environment for both performance and safety. Install the equipment only in a temperature- and humidity-controlled indoor area that is free of airborne materials that can conduct electricity. Too much humidity can cause a fire. Too little humidity can produce electrical shock and fire.
Site Preparation • The BlackDiamond 6808 chassis requires 3 inches (7.62 cm) around both the front and rear of the chassis (5 inches (12.7 cm) recommended) for proper airflow. The airflow of the Summit family of switches moves from the left side of the switch to the right side of the switch, or from the right side of the switch to the left side of the switch depending on the model.
Meeting Site Requirements Figure 5: Airflow through the Alpine 3804 chassis Airflow through chassis Airflow through chassis 38_air4 Figure 6: Airflow through the Alpine 3802 chassis Airflow through chassis Airflow through chassis 3802air Extreme Networks Consolidated Hardware Guide 47
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 7, Figure 8, and Figure 9. 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 8: 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 Hardware Guide DC OUT AC IN 50021 BD_027 49
Site Preparation Figure 9: 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). Electrostatic Discharge (ESD) Your system must be protected from static electricity. Take the following measures to ensure optimum system performance: • Keep relative humidity at 50 to 70%.
Meeting Site Requirements Figure 10: Ensure that you use 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 Use a rack grounding kit and a ground conductor that is carried back to earth or to another suitable building ground. All Extreme Networks switches are designed with mounting brackets that provide solid metal-to-metal connection to the rack.
Evaluating and Meeting Cable Requirements Figure 11: 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). Evaluating and Meeting Cable Requirements This section addresses requirements for the that cable you should use when installing your network equipment.
Site Preparation 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.
Evaluating and Meeting Cable Requirements 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.
Site Preparation 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 13: Bend radius for fiber optic cable Minimum 2 in. (5.
Evaluating and Meeting Cable Requirements Table 17: 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.
Site Preparation 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.
Meeting Power Requirements For more information about the power specifications of the Extreme Networks family of switches, see Appendix B, “Switch Technical Specifications” on page 297. Power Supply Requirements Adhere to the following requirements in order to operate your Extreme Networks equipment safely: • Ensure that your equipment is placed in an area that accommodates the power consumption and component heat dissipation specifications.
Site Preparation NOTE When using dual power supplies, make sure that each AC power supply attaches to an independent power source. Replacing the Power Cable If the power cable plug is unsuitable and must be replaced, connect the power supply wires for the switch according to the following scheme: • Brown wire to the Live (Line) plug terminal, which may be marked with the letter “L” or colored red. • Blue wire to the Neutral plug terminal, which may be marked with the letter “N” or colored black.
Applicable Industry Standards NOTE Extreme Networks recommends that you use a UPS that provides online protection. Calculating Amperage Requirements To determine the size of UPS that you need, use the following procedure: 1 To find VA (Volt-Amps), locate the voltage and amperage requirements for each piece of equipment. These numbers are usually located on a sticker on the back or bottom of your equipment.
Site Preparation 62 Extreme Networks Consolidated Hardware Guide
Part 3 Summit Switch
3 Summit Switch Overview This chapter describes: • Summit Switch Models on page 65 • Summary of Features on page 65 • Memory Requirements on page 68 • Following Safety Information on page 69 Summit Switch Models The following models comprise the Summit family of switches: • Summit1i • Summit5i • Summit7i • Summit48i • Suumit48si • Summit4 • Summit4/FX • Summit24 • Summit48 • Summit24e2 • Summit24e3 • SummitPx1 Summary of Features This section describes the features of the Summit family of switches.
Summit Switch Overview Summit “i” series and non-”i” series switches • Virtual local area networks (VLANs), including support for IEEE 802.1Q and IEEE 802.1p • VLAN aggregation • Spanning Tree Protocol (STP) (IEEE 802.
Summary of Features • IGMP • Menu-driven console interface • SNMP • Password-enabled Summit24e3 • VLANs, including support for IEEE 802.1Q and IEEE 802.1p • STP (IEEE 802.1D) • Quality of Service (QoS), including support for IEEE 802.
Summit Switch Overview Memory Requirements Your “i” series Summit switch must have 128MB of DRAM in order to support the features in ExtremeWare version 6.0 or later. This is not a requirement for Summit24 or Summit48 switch models. If you have a Summit24 or Summit48 switch, it must have 32MB of DRAM to support the features in ExtremeWare version 4.0. To determine the memory size in your switch, use the following command: show memory For Summit switches running ExtremeWare 4.
Following Safety Information Table 19 describes port configurations available on the different Summit switch models.
Summit Switch Overview 70 Extreme Networks Consolidated Hardware Guide
4 Summit Switch Models This chapter describes: • Switch Models on page 71 • Front and rear views of the Summit switch models • LEDs on the Summit switch models Switch Models The following models comprise the Summit family of switches: • Summit1i on page 71 • Summit5i on page 75 • Summit7i on page 78 • Summit48i on page 82 • Summit48si on page 85 • Summit4 on page 90 • Summit4/FX on page 91 • Summit24 on page 92 • Summit48 on page 94 • Summit24e2 on page 97 • Summit24e3 on page 100 • SummitPx1 on page 103
Summit Switch Models Figure 15: Front view of the Summit1i switch with 100BASE-TX/1000BASE-T ports 100/1000 Mbps ports TOP ROW: GREEN = 1000Mbps BOTTOM ROW: AMBER GREEN FLASHING GREEN = ACTIVITY = LINK OK = DISABLED 1 2 3 100BASE-TX/ 1000BASE-T 4 5 Unit status LEDs 6 7 1000BASE-X 8 PSU A PSU B 1 2 3 4 5 6 7 8 MGMT Port status LEDs Gigabit Ethernet ports SHG_S1T Figure 16: Front view of the Summit1i switch with 1000BASE-SX ports 1000 Mbps ports 1 1 2 3 4 5 6 7 2 3 4 Un
Summit1i Switch Rear View Table 20: 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.
Summit Switch Models Figure 17: Rear view of the Summit1i switch AC Connectors Label Reset button Console port SHG_Rr1 Power Sockets The Summit1i switch supports up to two power supplies. Each power supply has its own power socket. When a second power supply is installed and connected to a second independent power source, both provide a redundant, load-shared power source to the Summit1i switch.
Summit5i Switch Front View Summit5i Switch Front View As shown in Figure 18, Figure 19, and Figure 20, the Summit5i switch is 2U in height and 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 • 12 1000BASE-SX ports with MT-RJ connectors and 4 1000BASE-X ports with SC connectors • 12 1000BASE-LX ports with either MT-RJ or LC connectors (Figure 20 shows LC connectors) and 4 1000BASE-X ports with SC connecto
Summit Switch Models Figure 20: 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 GBIC Ports All three Summit5i switch models provide four unpopulated GBIC ports with SC connectors.
Summit5i Switch Rear View Table 21: GBIC types and maximum distances (continued) Standard Media Type LX100 (1550 nm optical window) 10/125 µm single-mode fiber UTP Category 5 UTP cable Mhz•Km Rating Maximum Distance (Meters) 100,000 – 80 *Extreme Networks proprietary. Connections between two Extreme Networks 1000BASE-LX interfaces can use a maximum distance of 10,000 meters. NOTE For more information about the supported GBIC types, see “GBIC Specifications” on page 32.
Summit Switch Models power supplies fails, the second power supply provides all power needs which ensures uninterrupted network operation. NOTE Summit5i switch power supplies must be serviced by personnel trained by Extreme Networks, only. Label The label on the rear of the Summit5i switch displays important information about your switch. Write down your switch information, including the model, part number, serial number and MAC address, before you install your switch.
Summit7i Switch Front View Figure 22: Front view of the Summit7i switch with 100BASE-TX/1000BASE-T ports Module status LEDs Console port Reset button Management port Modem port Management port LED PCMCIA slot PSU A PSU B MGMT LINK/ACTIVITY CONSOLE 1 2 3 4 5 TOP ROWS: GREEN 6 7 PCMCIA 10BASE-T/100BASE-TX MGMT PORT MODEM 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 8 = 1000 Mbps 9 10 11 12 13 14 15 16 BOTTOM ROWS: AMBER GREEN FLA
Summit Switch Models • 1000BASE-LX • 1000BASE-LX70 • ZX GBIC • LX100 • UTP GBIC GBIC Media Types and Distances Table 22 describes the media types and associated maximum distances for each GBIC type. Table 22: 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.
Summit7i Switch Rear View • Management port For information about the LEDs and their activity on the Summit7i switch, see “Summit1i, Summit5i, Summit7i, Summit48i, and Summit48si Switch LEDs” on page 90. Reset Button Use the reset button to cycle the switch down and bring the switch back up without powering off the switch. Your saved switch configuration information is not lost; unsaved switch configurations are lost. Use a non-conductive tool to push the reset button.
Summit Switch Models Figure 24: Rear view of the Summit7i switch Power socket Power socket Label EW_S7iRr Power Sockets The Summit7i switch supports up to two power supplies. Each power supply has its own power socket. When a second power supply is installed and connected to a second independent power source, both provide a redundant, load-shared power source to the Summit7i switch.
Summit48i Switch Front View Figure 25: Front view of the Summit48i switch Gigabit Ethernet ports 49 49R 50 Unit status LEDs 1 2 3 4 5 6 7 8 50R 49 49R 50 50R 17 18 19 20 21 22 23 24 9 25 10 26 11 27 12 28 13 29 14 30 15 31 16 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 Port status LEDs 10/100 Mbps ports S48i_fr GBIC Ports The Summit48i switch has two Gigabit Ethernet ports and two redundant Gigabit Ethernet ports.
Summit Switch Models Table 23: GBIC types and maximum distances (continued) 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 Mhz•Km Rating – 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.
Summit48si Switch Front View sources or power supplies fails, the second power supply provides all power needs which ensures 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 Summit48i switch power supplies must only be serviced by personnel trained by Extreme Networks. Label The label on the rear of the Summit48i switch displays important information about your switch.
Summit Switch Models Figure 27: 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 Figure 28 shows a close-up view of the Summit48si LEDs and ports. Figure 28: View of LEDs and ports on the Summit48si switch Console port Mini-GBIC port status LEDs 10/100 Mbps ports with status LEDs Mini-GBIC ports 48si_dtl Mini-GBIC Ports The Summit48si switch has two unpopulated Extreme mini-GBIC ports using LC connectors.
Summit48si Switch Rear View LEDs The Summit48si switch has the following LEDs: • Management • Port status For information about the LEDs and their activity on the Summit48si switch, see “Summit1i, Summit5i, Summit7i, Summit48i, and Summit48si Switch LEDs” on page 90. Summit48si Switch Rear View Figure 29 shows the rear view for the Summit48si switch.
Summit Switch Models Reset Button Use the reset button to cycle the switch down and bring the switch back up without powering off the switch. Your saved switch configuration information is not lost; unsaved switch configurations are lost. Use a non-conductive tool to push the reset button. Summit48si Power Supply LEDs Table 24 describes the light emitting diode LED activity on the Summit48si power supply.
Summit48si Switch Bottom View Figure 31: Bottom view of the Summit48si switch Label Label 48i1_btm Labels The labels on the bottom of the Summit48si switch display important information about your switch. Write down your switch information, including the model, part number, serial number and MAC address, before you install your switch. Serial Number Refer to the serial number when you contact Extreme Networks technical support.
Summit Switch Models Summit1i, Summit5i, Summit7i, Summit48i, and Summit48si Switch LEDs Table 25 describes the LED activity on the Summit1i, Summit5i, Summit7i, Summit48i, and Summit48si switches. Table 25: Switch LED activity for the Summit1i, Summit5i, Summit7i, Summit48i, and Summit48si LED Color Indicates Green The indicated PSU is powered up. Amber The indicated PSU has a failure. Green/Amber blinking The AC power cable is not inserted correctly.
Summit4/FX Switch Front View Figure 32: Front view of the Summit4 switch 10/100 Mbps ports 1 2 3 4 5 6 Unit status LEDs Port status LEDs 7 8 AMBER = ACTIVITY GREEN = LINK OK FLASHING GREEN = DISABLED 1 2 9 10 11 12 13 14 3 4 5 6 7 10/100 Mbps ports 9 10 11 12 13 14 15 16 8 15 16 ACTIVITY 17 18 19 20 21 22 17 18 19 20 21 22 18 17 19 LINK 20 Gigabit Ethernet ports 21 Gigabit Ethernet ports 22 Sum4fr NOTE For more information about the supported media types and dista
Summit Switch Models Figure 33: Front view of the Summit4/FX switch 1 2 Unit status LEDs Port status LEDs 100 Mbps ports 3 100 Mbps ports 4 5 6 7 8 13 14 15 16 FLASHING AMBER = TRAFFIC SOLID AMBER = DISABLED GREEN = ENABLED, LINK OK 9 10 1 11 1 2 9 10 11 12 3 12 2 4 5 6 13 14 7 8 15 16 LINK 1 2 3 4 5 6 1 2 3 4 5 6 ACTIVITY 3 4 Gigabit Ethernet ports 5 6 Gigabit Ethernet ports Sum4fx NOTE For more information about the supported media types and distanc
Summit24 Switch Front View GBIC Ports The Summit24 switch provides one Gigabit Ethernet port and one redundant Gigabit Ethernet port. All of the Gigabit Ethernet ports use SC connectors. You can use the following GBICs in the Summit24 switch: • 1000BASE-SX • 1000BASE-LX • 1000BASE-LX70 • ZX GBIC • LX100 GBIC Media Types and Distances Table 26 describes the media types and associated maximum distances for each GBIC type.
Summit Switch Models • Management • Port status • Gigabit Ethernet port status For information about the LEDs and their activity on the Summit24 switch, see “Switch LED activity for the Summit4, Summit4/FX, Summit24, and Summit48” on page 97. Summit48 Switch Front View The Summit48 switch is 2U in height and has 48 autosensing 10BASE-T/100BASE-TX ports with RJ-45 connectors and 2 Gigabit Ethernet ports and 2 redundant Gigabit Ethernet ports with SC connectors.
Summit4, Summit24, and Summit48 Switch Rear View Table 27: 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.
Summit Switch Models Figure 36: Rear view of the Summit4, Summit4/FX, Summit24, and Summit48 switch RPS port On/off switch Label Console port Reset button Power socket and fuse rear_Sum Power Socket The Summit switch automatically adjusts to the supply voltage. The power supply operates down to 90 V. The fuse is suitable for both 110 VAC and 220-240 VAC operation. Label The label on the rear of the Summit4, Summit4/FX, Summit24, and Summit48 switch displays important information about your switch.
Summit4, Summit24, and Summit48 Switch LEDs Reset Button Use the reset button to cycle the switch down and bring the switch back up without powering off the switch. Your saved switch configuration information is not lost; unsaved switch configurations are lost. Use a non-conductive tool to push the reset button. Summit4, Summit24, and Summit48 Switch LEDs Table 28 describes the LED activity on the Summit4, Summit4/FX, Summit24, and Summit48 switches.
Summit Switch Models Figure 37: Front view of the Summit24e2 switch Console Port Use the console port (9-pin, “D” type connector) to attach a terminal and access the CLI via a serial connection. Use the console port for local management. GBIC Ports The Summit24e2 switch provides two Gigabit Ethernet ports. All of the Gigabit Ethernet ports use SC connectors.
Summit24e2 Switch Rear View NOTE For more information about the supported GBIC types, see “GBIC Specifications” on page 32. LEDs The Summit24e2 switch has the following LEDs: • Power • Console • Link/ACK For information about the LEDs and their activity on the Summit24e2 switch, see “Summit24e2 Switch LEDs” on page 99. Summit24e2 Switch Rear View Figure 38 shows the rear view of the Summit24e2 switch.
Summit Switch Models Table 30: Summit24e2 switch LED activity (continued) Link/ACK Color Indicates Green Link is present. Green blinking Link is present; switch is transmitting or receiving data. Off Link is not present. NOTE For more information about configuring and using the Summit24e2 switch, see the Summit24e2 Installation and User Guide.
Summit24e3 Switch Front View Figure 40: View of the LEDs and ports on the Summit24e3 switch Console port Mini-GBIC port status LEDs 10/100 Mbps ports with status LEDs Mini-GBIC ports Reset button SH_24e3_dtl Mini-GBIC Ports The Summit24e3 switch has two unpopulated Extreme mini-GBIC ports using LC connectors. You can use the 1000BASE-SX mini-GBIC or the 1000BASE-LX mini-GBIC in the Summit24e3 switch.
Summit Switch Models Summit24e3 Switch Rear View Figure 41 shows the rear view of the Summit24e3 switch. Figure 41: Rear view of the Summit24e3 switch Power socket Label SH_24e3rear Power Socket The Summit24e3 switch automatically adjusts to the supply voltage. The power supply operates down to 90 V. Label The label on the rear of the Summit24e3 switch displays important information about your switch.
SummitPx1 Application Switch Front View Table 31: Summit24e3 switch LED activity (continued) 10/100 Mbps Port Status LEDs Color Indicates Green Link is present; port is enabled. Green blinking Link is present; there is activity. Off Link is not present or the port is disabled. Mini-GBIC Port Status LEDs Color Indicates Amber Frames are being transmitted and received on this port. Amber blinking A non-supported GBIC is installed on this port.
Summit Switch Models GBIC Network Interface The Network Interface port is a Gigabit Interface Connector (GBIC) used to connect the application switch to your local network. LEDs The SummitPx1 application switch has the following LEDs: • Link • Management • Power For information about the LEDs and their activity on the SummitPx1 application switch, see “SummitPx1 Application Switch LEDs” on page 105.
SummitPx1 Application Switch LEDs Figure 43: Rear view of the SummitPx1 application switch Label On/off switch Power socket Fuse WS_010 Power Socket The SummitPx1 application switch automatically adjusts to the supply voltage. The power supply operates down to 90 VAC. The fuse is suitable for both 110 VAC and 220-240 VAC operation. Label The label on the rear of the SummitPx1 application switch displays important information about your switch.
Summit Switch Models NOTE For more information about configuring and using the SummitPx1 switch, see the SummitPx1 Application Switch Installation and Configuration Guide.
5 Summit Switch Installation You can mount the Summit switch in a rack or place it free-standing on a tabletop.
Summit Switch Installation CAUTION Do not use the rack mount kits to suspend the switch under a table or desk, or to attach the switch to a wall. To mount the Summit switch in a standard 19-inch (48.26 cm) rack: 1 If you are installing a Summit7i switch, mount the helper bracket in the rack, as shown in Figure 44. Use four screws (not provided) that are appropriate to your rack type. NOTE The Summit7i switch can weigh up to 55 pounds (24.9 kg). NOTE Only the Summit7i switch uses the helper bracket.
Mounting the Switch in a Rack 6 Insert and tighten the screws with a suitable screwdriver, as shown in Figure 45 and Figure 46.
Summit Switch Installation Figure 46: 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. 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.
Removing and Installing Summit48si Power Supplies Placing the Switch on a Table or Shelf The Summit switch comes with four self-adhesive rubber pads. You can place up to four Summit switches on top of one another. Apply the pads to the underside of each switch, and place a pad at each marked corner of the switch. Place the switches on top of one another, ensuring that the corners align.
Summit Switch Installation Figure 47: Removing the retaining screws from the Summit48si power supply 48i1_01 3 Use the handle to slowly pull the power supply towards you, as shown in Figure 48. WARNING! Do not insert your fingers or hands into the empty power supply bay. Figure 48: Removing the Summit48si power supply 48i1_02 4 If you are not going to install a replacement power supply, cover the power supply bay with the blank faceplate that was originally supplied with the switch.
Installing the AC Power Cable Retaining Bracket 1 Disconnect the power cable from the switch and the power source. 2 Remove the two retaining screws from the power socket on the rear of the switch using a #2 Phillips screwdriver. Keep the screws for future use. 3 Slide the retaining bracket over the power cable, as shown in Figure 49. If necessary, loosen the retaining bracket screw.
Summit Switch Installation Figure 50: Attaching two retaining brackets Retaining bracket screw Retaining bracket screw SH_002 7 Connect the power cable(s) to the power source. Removing the AC Power Cable Retaining Bracket from a Power Cable Before you can remove a power cable from the power supply, you need to loosen the retaining bracket from the cable. To remove the AC power cable retaining bracket from a power cable: 1 Disconnect the power cable from the power source.
Removing the Switch from a Rack • 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 (48.26 cm) rack: 1 Unplug the power cable(s) from the from the wall outlet(s) and then from the switch. For the Summit4, Summit 24, and Summit48 switches, turn the on/off switch to the off position.
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Part 4 Alpine Switch
6 Alpine 3800 Series Switch Overview 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.
Alpine 3800 Series Switch Overview • STP (IEEE 802.
Switch Components Table 33: Port configurations available on Alpine I/O modules (continued) Ethernet Ports Module 10BASE-T/ 100BASE-TX/ 100BASE-TX 1000BASE-T GBIC 1000BASE-SX 100BASE-FX OTHER 8 VDSL3 FM-8Vi WM-4T1i 2 4 T1 WM-4E1i 2 4 E1 WM-1T3i 2 1 T3 1 The GM-4Xi supports 1000BASE-SX, 1000BASE-LX, and 1000BASE-LX70. 2 The GM-WDMi supports four Gigabit Ethernet channels over single fiber using wavelength division multiplexing. 3 The FM-8Vi has eight internal loopback ports for rate shaping.
Alpine 3800 Series Switch Overview • One integrated management module • Three I/O module slots, labeled slots 1 through 3 • One or two preinstalled power supplies • One fan tray • One electromagnetic discharge (ESD) wrist strap connector • Six light emitting diode (LED) displays CAUTION The Alpine 3802 switch has an integrated Switch Management Module (SMMi). The integrated Switch Management Module is not hot-swappable or user removable. Do not attempt to remove the integrated Switch Management Module.
Following Safety Information necessary to be aware of the hazards to which they are exposed in performing a task and 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.
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7 Alpine 3800 Series Switch Chassis There are three models in the Alpine 3800 series: the Alpine 3808 switch, the Alpine 3804 switch, and the Alpine 3802 switch. This chapter describes: • Alpine 3800 Series Architecture on page 125 • Installing the Chassis on page 135 • Removing the Chassis on page 138 NOTE Read the information in this chapter thoroughly before you attempt to install or remove any Alpine chassis.
Alpine 3800 Series Switch Chassis • Up to 192 switched 100BASE-FX Fast Ethernet ports • Up to 32 switched Gigabit Ethernet ports • Up to 32 switched T1 ports • Up to 32 switched E1 ports • Up to 48 switched Ethernet over VDSL ports • Up to 8 switched T3 ports Figure 51 shows the Alpine 3808 chassis installed with one required SMMi and eight optional I/O modules.
Alpine 3800 Series Architecture Alpine 3808 Switch Rear View Figure 52 shows the rear view of the Alpine 3808 switch.
Alpine 3800 Series Switch Chassis The Alpine 3804 switch can support the following number of ports and types of port configurations: • Up to 128 switched 10BASE-T/100BASE-TX Ethernet ports • Up to 96 switched 100BASE-FX Fast Ethernet ports • Up to 16 switched Gigabit Ethernet ports • Up to 16 switched T1 ports • Up to 16 switched E1 ports • Up to 32 switched Ethernet over VDSL ports • Up to 4 switched T3 ports Figure 53 shows the Alpine 3804 chassis installed with one required SMMi and five optional I/O mo
Alpine 3800 Series Architecture Alpine 3804 Switch Rear View Figure 54 shows the rear view of the Alpine 3804 switch.
Alpine 3800 Series Switch Chassis • Up to 12 switched T1 ports • Up to 12 switched E1 ports • Up to 16 switched Ethernet over VDSL ports • Up to 3 switched T3 ports Figure 55 shows the Alpine 3802 chassis installed with three optional I/O modules.
Alpine 3800 Series Architecture Alpine 3802 Switch LEDs Table 35 describes the LED activity of the Alpine 3802 switch.
Alpine 3800 Series Switch Chassis The rear view of the Alpine 3802 AC switch provides: • Access to the grounding studs • The chassis serial number • The Ethernet MAC address of the switch • Symbols of safety certification Power Sockets The Alpine 3802 switch supports up to two AC power supplies. Each power supply has its own power socket. When a second power supply is installed, both provide a redundant, load-shared power supply to the Alpine 3802 switch.
Alpine 3800 Series Architecture • On/Off switches • Input terminal blocks Figure 58 shows a close-up view of the Alpine 3802 DC connector Figure 58: View of the DC connector on the Alpine 3802 DC switch 3802DC_dtl On/Off Switch The Alpine 3802 switch supports two DC power supplies, and each power supply has its own on/off switch. If you have both power supplies powered on, both provide a redundant, load-shared power supply to the Alpine 3802 switch.
Alpine 3800 Series Switch Chassis New Command The Alpine 3802 has three modes of switch operation. You can use the configure switch {auto | extended | standard} command to configure the switch to operate in a specific mode. By default, the switch operates in auto mode. The three modes of switch operation are: • Extended mode—Slot 1 supports all existing Alpine modules: Alpine Ethernet I/O modules (green stripe) and Alpine Access I/O modules (silver stripe).
Installing the Chassis Installing the Chassis The Alpine 3800 series chassis fits in standard 19-inch (48.26 cm) racks. Table 36 displays the height measurements for the Alpine 3800 series chassis. Table 36: Alpine 3800 chassis height measurements Switch Model Height Alpine 3808 12 U Alpine 3804 6U Alpine 3802 4U The Alpine 3808 and Alpine 3804 chassis are shipped with a preinstalled fan tray.
Alpine 3800 Series Switch Chassis To mount the chassis into a rack: 1 Mount the helper bracket in the lowest available position in the rack using four appropriate screws (not provided), as shown in Figure 59. Figure 59: Helper bracket for mounting the Alpine 3800 series chassis BDbrackt 2 Place the box that contains the chassis upright on a secure flat surface with the front of the box facing you. 3 Remove the chassis from the box, and remove the packing material from the chassis.
Installing the Chassis Figure 60: The Alpine 3808 chassis requires 8 screws to be securely mounted in a rack Helper bracket 38_rack8 Figure 61: The Alpine 3804 chassis requires 8 screws to be securely mounted in a rack Helper bracket 38_rack4 Extreme Networks Consolidated Hardware Guide 137
Alpine 3800 Series Switch Chassis Figure 62: The Alpine 3802 chassis requires 4 screws to be securely mounted in a rack Helper bracket 3802rack Grounding the Alpine 3800 Series Chassis To ground your Alpine 3800 series chassis in accordance with NEBS standards, gather these 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 th
Removing the Chassis • # 1 Phillips screwdriver • A minimum of two people to help remove the chassis from the rack To remove the Alpine 3800 series chassis from a standard 19-inch (48.26 cm) rack: 1 Unplug the power cable from the outlet and then from the switch before you attempt to remove the chassis components and the chassis from the rack. 2 Mount the helper bracket in the rack directly beneath the chassis using four screws that are appropriate for your rack.
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8 Alpine 3800 Series Switch Power Supplies This chapter describes: • Installing the Alpine 3808 and the Alpine 3804 AC Power Supply on page 142 • Removing the Alpine 3808 and the Alpine 3804 AC Power Supply on page 145 • Supplying Power to the Alpine 3802 AC Power Supply on page 146 • Installing the Alpine 3808 and the Alpine 3804 DC Power Supply on page 147 • Removing the Alpine 3808 and the Alpine 3804 DC Power Supply on page 151 • Supplying Power to the Alpine 3802 DC Power Supply on page 152 NOTE Read
Alpine 3800 Series Switch Power Supplies 1 All installation, maintenance, and removal of a power supply must be done by qualified, trained service personnel only. 2 If you have one AC power supply installed in the Alpine 3802 switch, it must be installed in the lower power supply tray (PSU A). 3 If you require DC power supplies in the Alpine 3802 switch, you must have two DC power supplies installed.
Installing the Alpine 3808 and the Alpine 3804 AC Power Supply page 52. For more information about grounding the chassis, see “Grounding the Alpine 3800 Series Chassis” on page 138.
Alpine 3800 Series Switch Power Supplies Figure 64: 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, open the ejector/injector lever and do not slam the power supply into the backplane.
Removing the Alpine 3808 and the Alpine 3804 AC Power Supply Verifying a Successful Installation After you supply power to the Alpine switch, the switch performs a power-on self test (POST). During the POST, all ports are temporarily disabled, the packet LED is off, the power LED is on, and the MGMT LED flashes. The MGMT LED flashes until the switch successfully passes the POST. If the switch passes the POST, the MGMT LED blinks at a slow rate (one blink per second).
Alpine 3800 Series Switch Power Supplies 6 If you are going to install a replacement power supply, follow the installation steps on page 142. 7 If there is a problem with the power supply that you removed, contact Extreme Networks for assistance. Do not attempt to fix a faulty power supply. Personal injury to yourself or others may occur. 8 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 3808 and the Alpine 3804 DC Power Supply Installing the Alpine 3808 and the Alpine 3804 DC Power Supply This section describes the steps to successfully install and power your Alpine 3808 or Alpine 3804 DC power supply: • Selecting the cabling • Installing the DC power supply • Attaching the cabling and supplying power • Verifying a successful installation For centralized DC power connections, install only in a restricted access area.
Alpine 3800 Series Switch Power Supplies page 52. For more information about grounding the chassis, see “Grounding the Alpine 3800 Series Chassis” on page 138.
Installing the Alpine 3808 and the Alpine 3804 DC Power Supply Figure 66: 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 3804 THIS WAY UP WHEN INSTALLED IN 3808 THIS WAY UP SERVICE OFF ON RTN -48V 45022 SLIDE TO REMOVE 38_DCPS4 CAUTION When you insert a power supply, use one hand to support the power supply from the bottom and the other hand to hold the central handle on the front of the power supply.
Alpine 3800 Series Switch Power Supplies 1 Attach the ESD strap that is provided to your wrist and connect the metal end to the ground receptacle that is located on the top-right corner of the switch front panel. 2 Remove the plexiglas cover that shields the power connection on the power supply. 3 Strip 0.5 inches of insulation from the appropriate AWG, high strand-count copper cable. 4 Insert the cable into the DC ground and power cable lugs on the power supply, as shown in Figure 67 and Figure 68.
Removing the Alpine 3808 and the Alpine 3804 DC Power Supply Figure 69: 2-stud -48 VDC and RTN lug, and 1-stud ground lug Cable retention screw Cable retention screw 38 lugs 6 Replace the plexiglas cover. 7 Turn on the DC supply at both the wall breaker and at the power supply breaker. 8 Leave the ESD strap permanently connected to the chassis so that it is always available when you need to handle ESD-sensitive components.
Alpine 3800 Series Switch Power Supplies 4 Remove the DC power and ground cables from the power supply. 5 Slide the locking safety latch on the power supply in the direction marked “remove.” CAUTION Ensure that the latch is in the remove position. You cannot remove the power supply unless the latch is in the remove position.
Supplying Power to the Alpine 3802 DC Power Supply NOTE Alpine 3802 power supplies must be removed and replaced by personnel that have been trained by Extreme Networks and in accordance with all local and national electrical codes. Selecting the Cabling Use the following guidelines when selecting cabling for the DC power supplies: • Each DC power supply requires 6.5 A at -48 VDC nominal (or equivalent power between -40 and -70 VDC).
Alpine 3800 Series Switch Power Supplies If the switch passes the POST, the MGMT LED blinks at a slow rate (one blink per second). If the switch fails the POST, the MGMT LED shows a solid yellow light. 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.
9 Alpine 3800 Series Switch Management Module This chapter describes: • Installing SMMi Modules on page 157 • Removing SMMi Modules on page 159 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 • 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. See “Management Ports” in Chapter 1 for more information about management ports, and for more information about Alpine SMMi module specifications, see Appendix C, “Module Technical Specifications.
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 • SMMi module 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 b To close the ejector/injector levers, use both hands simultaneously to push the levers toward the center of the module. c To secure the module, tighten the two captive screws using a #2 Phillips screwdriver. NOTE Tighten the screws of this module before you insert additional modules. Otherwise, you might unseat modules that you have not secured. 6 Store the module packaging for future use.
Removing SMMi Modules Removing SODIMMs from the SMMi Module To remove a SODIMM: 1 Attach an ESD strap to your wrist and connect the metal end to the ground receptacle that is located on the top-right corner of the switch front panel. 2 Disengage the SODIMM by pulling out on the ejector locks located on either side of the SODIMM. 3 Rotate the SODIMM out of the socket. Removing SMMi Modules All Alpine 3800 series modules (SMMi and I/O modules) are hot-swappable.
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10 Alpine 3800 Series I/O Modules This chapter describes: • Configuring I/O Modules on page 161 • Installing I/O Modules on page 177 • Removing I/O Modules on page 179 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 74 shows the GM-4Ti module. Figure 74: 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 • Are added to the default VLAN as untagged. • Inherit the properties of the default VLAN (protocol type, VLANid, and so forth). • Operate in autonegotiation mode. GBIC Ports The GM-4Xi module supports the following GBICs: • 1000BASE-SX • 1000BASE-LX • 1000BASE-LX70 • ZX GBIC • LX100 GBIC • UTP GBIC GBIC Media Types and Distances. Table 43 describes the media types and associated maximum distances for each GBIC type.
Configuring I/O Modules • Install two or less LX100 GBICs per GM-4Xi module and leave the remaining GBIC slots empty • Install two or less LX100 GBICs per GM-4Xi module and install any combination of the following GBICs into the empty slots: — 1000BASE-SX — 1000BASE-LX — ZX GBIC — ZX Rev 03 — LX70 — UTP GBIC To ensure correct operation of the LX100 GBIC, make sure that you run ExtremeWare 6.1.9 or later on your switch.
Alpine 3800 Series I/O Modules Table 44 describes the optical specifications for the GM-4Si module. Table 44: GM-4Si module optical specifications Parameter Minimum Typical Maximum Transceiver Optical output power -9.
Configuring I/O Modules The total optical system budget for the GM-WDMi module is 12 dB. Measure cable plant losses with a 1550 nm light source to verify that your cable plant losses are within the optical budget. Table 45 describes the optical specifications for the GM-WDMi module.
Alpine 3800 Series I/O Modules Software Requirements The GM-WDMi module requires that you load ExtremeWare version 6.1.8 or later and BootROM 6.5 or later on your switch. FM-32Ti Module Figure 78 shows the FM-32Ti module. Figure 78: 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.
Configuring I/O Modules The FM-24Ti module has 24 10/100 Mbps autonegotiation Ethernet ports, using standard RJ-21 connectors. The FM-24Ti module supports 10BASE-T and 100BASE-TX. Table 47 describes the cable specifications for the Alpine FM-24Ti module. Appropriate cables are available from your local supplier.
Alpine 3800 Series I/O Modules Software Requirements The FM-24Ti module requires that you load ExtremeWare software version 6.1.7 or later and BootROM 6.5 or later on your switch. FM-24SFi Module Figure 81 shows the FM-24SFi module. Figure 81: FM-24SFi module 1 2 3 4 5 6 Module status LED 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 100 Mbps ports with status LEDs 24 FM-24SFi The FM-24SFi module has 24 100 Mbps Ethernet ports, using standard MT-RJ connectors.
Configuring I/O Modules For information about the LEDs and their activity on the FM-24SFi module, see “I/O Module LEDs” on page 176. Software Requirements The FM-24SFi module requires that you load ExtremeWare version 6.1.7 or later and BootROM 6.5 or later on your switch. FM-24MFi Module Figure 82 shows the FM-24MFi module.
Alpine 3800 Series I/O Modules LEDs The FM-24MFi module has the following LEDs: • Module status • Port status For information about the LEDs and their activity on the FM-24MFi module, see “I/O Module LEDs” on page 176. Software Requirements The SMMi requires ExtremeWare software version 6.1.5 or later to operate the FM-24MFi. FM-8Vi Module Figure 83 shows the FM-8Vi module.
Configuring I/O Modules Table 50 lists the pin numbers on the connector, the color code for the wires, and the associated port number for the wire pair.
Alpine 3800 Series I/O Modules The following example configures slot 2 for the FM-8Vi module: config slot 2 module fm8v Displaying VDSL Statistics. For the FM-8Vi module, the show port command has been enhanced to show VDSL statistics. To display VDSL statistics, use the following command: show port vdsl stats The following command displays the VDSL statistics for ports 2:1 through 2:4: show port 2:1-2:4 vdsl stats WM-4T1i Module Figure 84 shows the WM-4T1i module.
Configuring I/O Modules For information about the LEDs and their activity on the WM-4T1i module, see “I/O Module LEDs” on page 176. Software Requirements The WM-4T1i module requires that you load ExtremeWare software version 6.1.5 or later and BootROM 6.5 or later on your switch. For more information about software requirements and WM-4T1i module configuration, see the ExtremeWare Software User Guide and the ExtremeWare Command Reference Guide. WM-4E1i Module Figure 85 shows the WM-4E1i module.
Alpine 3800 Series I/O Modules WM-1T3i Module Figure 86 shows the WM-1T3i module. Figure 86: 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 a 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.
Installing I/O Modules Table 51: Alpine I/O module LEDs (green stripe) (continued) LED Color Indicates Port Green Link up (all except Flashing green FM-24MFi and Amber FM-24SFi) Off Disabled Port Green Link up (FM-24MFi and FM-24SFi only) Flashing green Packet activity Off Link down Packet activity Link down Table 52: Alpine Access I/O module LEDs (silver stripe) LED Color Indicates Status Off No power Amber Module seated in chassis Green Module powered up Green blinking Power-o
Alpine 3800 Series I/O Modules • # 1 Phillips screwdriver • I/O module • Appropriate type of cable for the I/O module you plan to install To install an I/O module: 1 Select a slot for the module: • Slots numbered 1 through 8 in the Alpine 3808 chassis • Slots numbered 1 through 4 in the Alpine 3804 chassis • Slots numbered 1 through 3 in the Alpine 3802 chassis CAUTION Do not install I/O modules into the top, unnumbered slot of the Alpine 3808 or Alpine 3804 chassis; this slot is designated for SMMi module
Verifying the I/O Module Installation NOTE Tighten the screws of this module before you insert additional modules. Otherwise, you might unseat modules that you have not secured. 6 Store the module packaging for future use. 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 additional I/O modules, repeat steps 1 through 6.
Alpine 3800 Series I/O Modules • ESD-preventive wrist strap • # 1 Phillips screwdriver • Replacement I/O module or blank faceplate if you are not replacing the I/O module To remove an I/O module: 1 Attach the ESD strap that is provided to your wrist and connect the metal end to the ground receptacle that is located on the top-right corner of the switch front panel. 2 Use a #2 Phillips screwdriver to unscrew the two captive screws.
11 Alpine 3800 Series Switch Fan Tray This chapter describes: • Alpine 3808 Fan Tray on page 181 • Alpine 3804 Fan Tray on page 182 • Alpine 3802 Fan Tray on page 182 • Removing the Alpine 3808 or Alpine 3804 Fan Tray on page 183 • Installing the Alpine 3808 or Alpine 3804 Fan Tray on page 184 NOTE Read the information in this chapter thoroughly before you attempt to install or remove any Alpine fan tray. Alpine 3808 Fan Tray The Alpine 3808 fan tray (no.
Alpine 3800 Series Switch Fan Tray Alpine 3804 Fan Tray The Alpine 3804 fan tray (no. 45015): • Contains three individual fans • Is preinstalled at the factory • Is accessed from the front of the chassis • Is hot-swappable which means you can remove and replace the fan tray without powering down the switch • Can be removed and installed by customers CAUTION Do not cover or obstruct the fan ventilation holes at the rear of the unit.
Removing the Alpine 3808 or Alpine 3804 Fan Tray Removing 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 remove a fan tray. You need the following tools and equipment to remove a fan tray: • ESD-preventive wrist strap • # 1 Phillips screwdriver CAUTION Only trained service personnel should perform service to Alpine 3808 or Alpine 3804 fan trays.
Alpine 3800 Series Switch Fan Tray Figure 87: Alpine 3808 fan tray SE RV IC E IS 04 LE D IN W AY UP TH 38 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 IN HE W A 13 6 H z 50 SL ID E 2 TO RE M O VE Finger grips 38_fanx8 Figure 88: Alpine 3804 fan tray Finger grips 38_fanx4 Installing the Alpine 3808 or Alpine 3804 Fan Tray Alpine 3808 and Alpine 3804 fan trays are hot-swappable.
Installing the Alpine 3808 or Alpine 3804 Fan Tray CAUTION Only trained service personnel should perform service to Alpine 3808 or Alpine 3804 fan trays. Before installing or removing any components, or carrying out any maintenance procedures, see Appendix A. To install the fan tray in the Alpine 3808 or Alpine 3804 switch: 1 Attach the ESD strap that is provided to your wrist and connect the metal end to the ground receptacle that is located on the top-right corner of the switch front panel.
Alpine 3800 Series Switch Fan Tray 186 Extreme Networks Consolidated Hardware Guide
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 for you to meet the changing requirements of your network.
BlackDiamond 6800 Series Switch Overview • VLANs, including support for IEEE 802.1Q • STP (IEEE 802.
Switch Components Table 53: Port configurations available on BlackDiamond I/O modules (continued) Ethernet Ports Module 10BASE-T/ 100BASE-T/ 100BASE-TX 1000BASE-T GBIC 1000BASE-SX 100BASE-FX OTHER P3cSi 4 OC-3 P3cMi 4 OC-3 P12cSi 2 OC-12 P12cMi 2 OC-12 ARM N/A MPLS N/A A3cSi 4 OC-3 A3cMi 4 OC-3 1 The 10GLRi module is a single slot I/O module for the BlackDiamond 6808 chassis. No chassis upgrade is required, and the MSM64i management module supports the 10GLRi module.
BlackDiamond 6800 Series Switch Overview • 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 fan tray (accessed from the rear of the unit) • One electromagnetic discharge (ESD) wrist strap connector 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, la
Following Safety Information With ExtremeWare 6.1 or later, you can configure the backplane load-sharing algorithm. The default load-sharing algorithm uses ingress port-based trunking. In an Internet bridging or routing environment, the address-based algorithm may be more appropriate. For more information about how to configure the backplane load-sharing algorithm, see the ExtremeWare Software User Guide.
BlackDiamond 6800 Series Switch Overview 194 Extreme Networks Consolidated Hardware Guide
13 BlackDiamond 6800 Series Switch Chassis There are three models in the BlackDiamond 6800 series: The BlackDiamond 6816 switch, the BlackDiamond 6808 switch, and the BlackDiamond 6804 switch. This chapter describes: • BlackDiamond 6800 Series Architecture on page 195 • Installing the Chassis on page 204 • Removing the Chassis on page 209 NOTE Read the information in this chapter thoroughly before you attempt to install or remove any BlackDiamond chassis.
BlackDiamond 6800 Series Switch Chassis The BlackDiamond 6816 switch can support the following number of ports and types of port configurations: • Up to 1344 switched 10BASE-T/100BASE-TX Ethernet ports • Up to 448 switched 100BASE-FX Fast Ethernet ports • Up to 192 switched Gigabit Ethernet ports • Up to 60 OC3 PoS ports • Up to 60 OC3 ATM ports • Up to 30 OC12 PoS ports NOTE PoS and ATM modules installed in a BlackDiamond chassis require at least one BlackDiamond Ethernet I/O module also installed in the
BlackDiamond 6800 Series Architecture Figure 89: Front view of the BlackDiamond 6816 switch with sample I/O modules 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 Extreme Networks Consolidated Hardware Guide 197
BlackDiamond 6800 Series Switch Chassis BlackDiamond 6816 Switch Rear View The rear of the BlackDiamond 6816 switch provides: • The chassis serial number • The Ethernet MAC address of the switch • Symbols of safety certification Figure 90 shows the rear view of the BlackDiamond 6816 switch.
BlackDiamond 6800 Series Architecture BlackDiamond 6808 Switch Front View 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 fan tray (accessed from the rear of the unit) • One electromagnetic discharge (ESD) wrist strap connector The BlackDiamond 6808 switch can support the following number of
BlackDiamond 6800 Series Switch Chassis Figure 91: Front view of the BlackDiamond 6808 switch with sample I/O modules MSM module slots I/O module slots ESD wrist strap connector 1 2 3 4 A B 50015 50015 I/O module slots 5 6 7 8 51032 51040 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 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 8 16 24 32 = ACTIVITY AMBER = LINK OK GREEN
BlackDiamond 6800 Series Architecture BlackDiamond 6808 Switch Rear View The rear of the BlackDiamond 6808 switch provides: • Access to the fan tray • The chassis serial number • The Ethernet MAC address of the switch • Symbols of safety certification Figure 92 shows the rear view of the BlackDiamond 6808 switch.
BlackDiamond 6800 Series Switch Chassis BlackDiamond 6804 Switch Front View 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 fan tray (accessed from the front of the unit) • One electromagnetic discharge (ESD) wrist strap connector The BlackDiamond 6804 switch can support the following number of
BlackDiamond 6800 Series Architecture Figure 93: 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 BlackDiamond 6804 Switch Rear View The rear of the BlackDiamond 6804 switch provides: • The chassis serial number • The Ethernet MAC address of the switch • Symbols of safety certification Figure 94
BlackDiamond 6800 Series Switch Chassis Figure 94: Rear view of the BlackDiamond 6804 switch Label Grounding studs 6804_rr Installing the Chassis The BlackDiamond 6800 series chassis fits in a standard 19-inch (48.26 cm) rack. Table 54 displays the height measurements for the BlackDiamond 6800 series chassis.
Installing the Chassis Rack Installation To mount the BlackDiamond 6800 series chassis into a standard 19-inch (48.
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, depending on the model, as shown in Figure 96, Figure 97, and Figure 98. 6 After you secure the chassis, remove the helper bracket. Store it for future use, for example, if you need to remove the chassis.
Installing the Chassis Figure 96: Securing the BlackDiamond 6816 chassis in a rack 1 2 3 4 5 6 7 8 A B C D 9 10 11 12 13 14 15 16 BD_rack16 Extreme Networks Consolidated Hardware Guide 207
BlackDiamond 6800 Series Switch Chassis Figure 97: Securing the BlackDiamond 6808 chassis in a rack 1 2 3 4 A B 5 6 7 8 BD Figure 98: Securing the BlackDiamond 6804 chassis in a rack 6804rack 208 Extreme Networks Consolidated Hardware Guide
Removing the Chassis Grounding the BlackDiamond 6800 Series Chassis To ground your BlackDiamond 6800 series chassis in accordance with NEBS standards, gather these materials: • Two 1/4-20 steel zinc plate screw fasteners approximately 1/2" in length. • Two zinc-plated steel lockwashers • One Panduit-style, standard two-hole barrel, copper compression lug • 4 AWG, high strand-count copper wire cable To ground the chassis: 1 Strip 0.5 inch (1.
BlackDiamond 6800 Series Switch Chassis 3 To reduce weight and prevent possible equipment damage, use a # 1 Phillips screwdriver to remove the power supply, the MSM64i module(s), and the I/O modules from the BlackDiamond 6800 series chassis. For information about removing power supplies, see Chapter 14. For information about removing the MSM64i, see Chapter 15. For information about removing I/O modules, see Chapter 16. 4 Unscrew the chassis from the rack.
14 BlackDiamond 6800 Series Switch Power Supplies This chapter describes: • Installing a BlackDiamond 6800 Series Power Supply on page 215 • Removing a BlackDiamond 6800 Series Power Supply on page 221 NOTE Read the information in this chapter thoroughly before you attempt to install, remove, or supply power to any BlackDiamond power supply. BlackDiamond power supplies are iPower power supplies.
BlackDiamond 6800 Series Switch Power Supplies NOTE If you install four power supplies in your BlackDiamond 6816 chassis, the power supplies will deliver full redundancy. The BlackDiamond 6800 series switch generates SNMP traps for the following events: • AC power source fails • Power supply fails • Power supply is removed For more information about planning your site and power requirements, see “Meeting Power Requirements” in Chapter 2.
Table 57: LEDs on the 220 VAC power supply LED Color Indicates AC In Green Input voltage is 220 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 DC Out 110 VAC Power Supplies The BlackDiamond 110 VAC power supply has two IEC 320 C19 inputs on the front of the power supply.
BlackDiamond 6800 Series Switch Power Supplies Table 58: 110 VAC power supply LED activity (continued) LED Color Indicates DC Out Green All DC outputs are operational Amber One or more DC outputs failed Off No power DC Power Supplies The DC inputs are located on the front of the power supply. Each set of power terminals on the DC power supply consists of two 6-mm, metric-threaded, nickel-plated, brass studs that are centered 0.625 inch (15.86 mm) apart. The earth ground studs extend 0.
Installing a BlackDiamond 6800 Series Power Supply Table 59: DC power supply LED activity (continued) LED Color Indicates DC out Green All DC outputs are operational Amber One or more DC outputs have failed Off Input voltage is below 12 V Installing a BlackDiamond 6800 Series Power Supply You need the following tools and equipment to install the BlackDiamond 6800 series power supplies: • ESD-preventive wrist strap • # 1 Phillips screwdriver • Power supply NOTE Ground the rack, mount the chassis i
BlackDiamond 6800 Series Switch Power Supplies Figure 102: Installing a DC power supply in a BlackDiamond 6816 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 Figure 103: Installing an AC power supply in a BlackDiamond 6808 or a BlackDiamond 6804 POWER DC OUT AC IN 50021 V-50/60Hz 200-240V, 15A BD_033 216 Extreme Networks Consolidated Hardware Guide
Installing a BlackDiamond 6800 Series Power Supply 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. Figure 104: DC output bus bars and connectors on a BlackDiamond power supply Connectors Bus bars XM_busbar 4 If you are installing a DC power supply, you must prepare the DC power supply cable before you install the power supply.
BlackDiamond 6800 Series Switch Power Supplies Figure 105: Installing a second power supply in a BlackDiamond 6808 or a BlackDiamond 6804 POWER DC OUT AC IN POWER 50021 DC OUT AC IN 50021 BD_028 AC Power Cable and Plug Use the appropriate AC power cable and plug for your switch and your location. See “Wiring Closet Considerations” on page 43 for more information about the types of power cords to use. Figure 106 shows the BlackDiamond 6800 series 220 VAC power cable and plug.
Installing a BlackDiamond 6800 Series Power Supply Figure 107: BlackDiamond 110 VAC power cable and plug Wider prong BD_110cord See “Preparing the DC Cabling” on page 219 for details about the -48 VDC power cable and plug. Selecting the DC Cabling Use the following guidelines when selecting cabling for the DC power supplies: • Each DC power supply requires dedicated 55 A service. • For DC power cables, use 4 AWG, high-strand-count copper wire cable.
BlackDiamond 6800 Series Switch Power Supplies Figure 108: Dimensions of the DC power cable lugs 2.25 in. (5.72cm) Terminal crimp 0.55 in. (1.40cm) 4 AWG, high-strand-count conductor 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 60.
Removing a BlackDiamond 6800 Series Power Supply (22.9 mm) above the faceplate. The nickel plating on the studs enhances conductivity and resists corrosion. For convenience, the lock washers and nuts for connecting the source DC cables to the power terminals are loosely mounted on the studs ready for use. Verifying a Successful Installation After you supply power to the BlackDiamond switch, each MSM64i performs a POST of its circuitry. The LED labeled “SYS” on the MSM64i blinks amber during the POST.
BlackDiamond 6800 Series Switch Power Supplies Figure 110: Removing BlackDiamond 6816 DC 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 111: Removing BlackDiamond 6808 or BlackDiamond 6804 220 VAC power supplies POWER DC OUT AC IN POWER 50021 DC OUT AC IN 50021 BD_028 222 Extreme Networks Consolidated Har
Removing a BlackDiamond 6800 Series Power Supply 5 Slowly slide the power supply out of the chassis by grasping the edges of the power supply with both hands and pulling the power supply towards you. After you pull the power supply towards 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.
BlackDiamond 6800 Series Switch Power Supplies 224 Extreme Networks Consolidated Hardware Guide
15 BlackDiamond 6800 Series Management Switch Module This chapter describes: • Installing MSM64i Modules on page 229 • Removing MSM64i Modules on page 232 NOTE Read the information in this chapter thoroughly before you attempt to install or remove the BlackDiamond Management Switch Fabric Module (MSM64i). The Management Switch Fabric Module (MSM64i) is the internal switch fabric for data that is being sent between I/O modules.
BlackDiamond 6800 Series Management Switch Module You can install the MSM64i in one of the designated (lettered) slots in the BlackDiamond 6800 series chassis, labeled slot A, B, C, or D on the BlackDiamond 6816 or slot A or B on the BlackDiamond 6808 and the BlackDiamond 6804. Figure 112 shows the MSM64i.
Selection of the master MSM64i occurs automatically. The following scenarios describe the selection process: • When the BlackDiamond 6800 series switch boots with one or more MSM64i modules already installed, and an MSM64i module is installed in slot A, the MSM64i in slot A becomes the master. • When the BlackDiamond 6800 series switch boots with a single MSM64i (regardless of the slot position), it is selected as the master.
BlackDiamond 6800 Series Management Switch Module Table 62: MSM64i SODIMM memory combinations J8 J9 Total Memory 64 MB 64 MB 128 MB 128 MB 0 MB 128 MB 128 MB 64 MB 192 MB 128 MB 128 MB 256 MB NOTE See “Adding SODIMMs to the MSM64i Module” on page 231 and “Removing a SODIMM from the MSM64i Module” on page 232 for more details on how to add and remove SODIMMs. MSM64i LEDs Table 63 describes the LED activity on the MSM64i.
Installing MSM64i Modules Installing MSM64i Modules The BlackDiamond MSM64i module is hot-swappable. You do not need to power off the system to insert an MSM64i module.
BlackDiamond 6800 Series Management Switch Module For the BlackDiamond 6808, ensure that the MSM64i is vertical with the module name at the top, the PCB to the right, and that the ejector/injector levers are extended, as shown in Figure 115.
Installing MSM64i Modules d If you install a slave MSM64i, use the synchronize command to replicate all saved images and configurations from the master MSM64i to the slave MSM64i. CAUTION Depending on the size and complexity of your network, you should install and configure a slave MSM64i module when there will be minimal network disruption. You may need to reboot your switch after you use the synchronize command. 6 Store the module packaging for future use.
BlackDiamond 6800 Series Management Switch Module 50015 Figure 116: Adding a SODIMM to the MSM64i EW_SODMs Removing a SODIMM from the MSM64i Module To remove a SODIMM: 1 Attach an ESD strap to your wrist and connect the metal end to the ground receptacle that is located on the top-left corner of the switch front panel. 2 Disengage the SODIMM by pulling out on the ejector locks that are located on either side of the SODIMM. 3 Rotate the SODIMM out of the socket.
Removing MSM64i Modules 3 Simultaneously rotate the ejector/injector levers outward to disengage the module from the backplane. a 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 Management Switch Module 234 Extreme Networks Consolidated Hardware Guide
16 BlackDiamond 6800 Series I/O Modules This chapter describes: • Configuring I/O Modules on page 235 • Installing I/O Modules on page 272 • Removing I/O Modules on page 275 NOTE Read the information in this chapter thoroughly before you attempt to install or remove any BlackDiamond I/O modules. BlackDiamond I/O modules consist of a printed circuit board mounted on a metal panel that acts as the insertion vehicle in a BlackDiamond 6800 series switch.
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.
Configuring I/O Modules G8Ti Module Figure 117 shows the G8Ti module. Figure 117: 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). • Operate in auto-negotiation mode.
BlackDiamond 6800 Series I/O Modules G8Xi Module Figure 118 shows the G8Xi module. Figure 118: 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.
Configuring I/O Modules Table 64: 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.
BlackDiamond 6800 Series I/O Modules G12SXi Module Figure 119 shows the G12SXi module. Figure 119: 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.
Configuring I/O Modules WDMi Module Figure 120 shows the WDMi module. Figure 120: WDMi module Module status LEDs 10,000 Mbps port Channel status LEDs BD_WDMi The WDMi module has one 10 Gbps port, which supports eight full-duplex Gigabit Ethernet channels. The port transmits over a pair of single mode fiber cables using wavelength division multiplexing. The port uses an SC-APC duplex connector with a spring-loaded safety cover.
BlackDiamond 6800 Series I/O Modules Table 65: WDMi optical interface specifications (continued) Parameter Minimum Typical Optical input power maximum Maximum -1 dBm Fiber Optic Cable Back reflection -25 dB Extreme Networks recommends that you reserve 3 dB for losses due to cable splices, connectors, and operating margin.
Configuring I/O Modules 10GLRi module Figure 121 shows the 10GLRi module. Figure 121: 10GLRi module Module status LEDs Port status LED 10 Gbps port XM_042 The 10GLRi module has one 10GBASE-LR port that supports single-mode fiber using standard SC connectors. The module has the bandwidth to blow through any bottleneck and has bandwidth management, traffic shaping, and policy-based QoS capabilities. The module is a single slot I/O module for the BlackDiamond 6808 chassis.
BlackDiamond 6800 Series I/O Modules Table 67: 10GLRi optical parameters (continued) Parameter Value Wavelength range 1260 to 1355 nm Maximum overload average receive power 0.5 dB (average power) Channel insertion loss 6.4 dB 1 This measurement uses the Optical Modulation Amplitude (OMA) test method; the absolute difference between an optical power logic level one and an optical power logic level zero.
Configuring I/O Modules The following example configures the automatic interface costs for 10 Mbps, 100 Mbps, 1 Gbps, and 10 Gbps interfaces: config ospf metric-table 10m 20 100m 10 1g 8 10g 4 For more information about this and other ExtremeWare commands, see the ExtremeWare Software Command Reference Guide. F48Ti Module Figure 122 shows the F48Ti module.
BlackDiamond 6800 Series I/O Modules F96Ti Module Figure 123 shows the F96Ti module. Figure 123: 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. The RJ-21 port is shown in Figure 124.
Configuring I/O Modules Table 69 describes the pinouts for the RJ-21 port.
BlackDiamond 6800 Series I/O Modules Table 70: Output signals for the RJ-21 connector (continued) RJ-21 Pin Numbers Output Signal RJ-21 Pin Numbers Output Signal 23 RxD (-) 48 RxD (+) 24 TxD (-) 49 TxD (+) Table 71 describes the cable specifications for the RJ-21 connector. Appropriate cables are available from your local supplier.
Configuring I/O Modules Software Requirements The F96Ti module requires that you load ExtremeWare version 6.1.8 or later and BootROM 6.5 or later on the switch. F32Fi Module Figure 126 shows the F32Fi module.
BlackDiamond 6800 Series I/O Modules P3cSi, P3cMi, P12cSi, and P12cMi Modules Figure 127 shows the P3cSi and P3cMi modules. Figure 127: P3cSi and P3cMi modules Module status LEDs Port status LEDs Network interface ports Port status LEDs Service ports BD_P3 Figure 128 shows the P12cSi and P12cMi modules.
Configuring I/O Modules In the first application, the metropolitan area network service provider can build service network sites in various cities, then use PoS modules in a BlackDiamond 6800 series switch to connect those cities to a carrier’s SONET infrastructure. In the second application, operators of server co-location networks can use PoS modules in BlackDiamond 6800 series switches to create a SONET-based connection between server co-location sites.
BlackDiamond 6800 Series I/O Modules The GPP subsystem handles system control and I/O module management functions. The GPP subsystem resides outside of the I/O module data path to optimize performance. PoS Module LED Indicators. The PoS modules are equipped with two module-level LED indicators (STATUS and DIAG) and one port-level LED indicator for each network interface port on the PoS module as shown in Figure 129.
Configuring I/O Modules Figure 129: Showing the components and LEDs of the PoS module Captive retaining screw Module status LED Module diagnostics LED Ejector/injector handle Network processors and heat sinks Network interface ports Two on OC-12 PoS module Four on OC-3 PoS module Port status LED (one per port) Service ports General Purpose Processor (GPP) PoS 002 Feature Summary The PoS modules provide the following key networking functions: • Support for both Synchronous Optical Network (SONET) and
BlackDiamond 6800 Series I/O Modules • Support for jumbo frames • Extensive support for Quality of Service (QoS) and Differentiated Services (DiffServ), including: — Eight ingress queues and eight egress queues per interface — Ingress and egress rate shaping and limiting — IEEE 802.
Configuring I/O Modules • Link Control Protocol (LCP) • Link Quality Report (LQR) Protocol • Challenge Handshake Authentication Protocol (CHAP) • Password Authentication Protocol (PAP) • IP Control Protocol (IPCP) • Bridging Control Protocol (BCP) • Extreme Discovery Protocol Control Protocol (EDPCP) • Multi Protocol Label Switching Control Protocol (MPLSCP) • OSI Network Layer Control Protocol (OSINLCP) MPLS. The PoS module ports provide MPLS support via a PPP link.
BlackDiamond 6800 Series I/O Modules • Network capacity planning and trend analysis • Network monitoring • Workload characterization • User profiling • Data warehousing and mining Each PoS module can maintain two million flow records. Per-flow statistics are reported in the NetFlow, Version 1 format, which groups flow records together into UDP datagrams for export to a flow-collector device.
Configuring I/O Modules DSCP Mapping. You can use the diffserv dscp-mapping command to configure a mapped relationship between an input DSCP and an associated output DSCP. Each PoS port supports three DSCP mapping tables: one of the tables is used in the ingress direction; two are used for egress flows (onto the SONET link). The two egress tables are for the congested and noncongested states, as determined by the RED algorithm.
BlackDiamond 6800 Series I/O Modules ARM Figure 130 shows the Accounting and Routing Module (ARM). Figure 130: 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 ARM LED Indicators. The ARM is equipped with two module-level LED indicators (STATUS and DIAG) (see Figure 131). • STATUS LED—Located near the top end of the ARM front panel, near the ejector/injector handle. This LED indicator is a bi-color LED (displaying in either green or amber) that signals the operating status of the module. • DIAG LED—Located beside the STATUS LED.
BlackDiamond 6800 Series I/O Modules • IP unicast forwarding (with selective longest prefix match) • Destination-sensitive accounting IP Unicast Forwarding. IP unicast packets are forwarded in the ARM module using the longest prefix match algorithm. Counts of packets and bytes are maintained based on the routes used to forward packets. All IP unicast forwarding is performed on the ARM to facilitate implementation of accounting.
Configuring I/O Modules Software Requirements The ARM module requires that you run ExtremeWare 7.0 or later on both the MSM64i module and the ARM module, BootROM 7.8 for the MSM64i module, and BootROM 1.18 for the ARM module. For more information about software requirements and ARM module configuration, see the ExtremeWare Software User Guide and the ExtremeWare Command Reference Guide. Hardware Requirements The ARM module is compatible with “i” series MSM modules only.
BlackDiamond 6800 Series I/O Modules Physical Description This section describes the components and the LEDs of the MPLS module, as shown in Figure 133. The MPLS module has the following key components: • Two high-performance network processors • A GPP subsystem The network processors are high-performance, programmable devices that enhance the Extreme “i” chipset to support expanded functionality, features, and flexibility. The GPP subsystem handles system control and MPLS management functions.
Configuring I/O Modules Figure 133: Showing the 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 Summary of Features The MPLS module includes the following features: • MPLS • IP unicast forwarding (with selective longest prefix match) • Destination-sensitive accounting MPLS.
BlackDiamond 6800 Series I/O Modules By mapping to a specific FEC, the MPLS label efficiently provides the router with all of the local link information needed for immediate forwarding to the next hop. MPLS creates a Label Switched Path (LSP) along which each Label Switch Router (LSR) can make forwarding decisions based solely upon the content of the labels. At each hop, the LSR simply strips off the existing label and applies a new one that tells the next LSR how to forward the packet. MPLS Layer-2 VPNs.
Configuring I/O Modules customers at predetermined and different rates. The rates are based on the customers’ IP unicast packet destinations. Destination-sensitive accounting allows you to bill your customers at different rates depending upon the destination of the IP unicast packets they send.
BlackDiamond 6800 Series I/O Modules A3cSi and A3cMi Modules Figure 134 shows the A3cSi and A3cMi modules. Figure 134: A3cSi and A3cMi modules Module status LEDs Port status LEDs Network interface ports Port status LEDs Service ports BD_A3_2 The A3cSi and A3cMi, Asynchronous Transfer Mode (ATM), modules have four OC-3 ports using duplex SC connectors. The A3cSi supports single mode fiber-optic cable only, and the A3cMi support multimode fiber-optic cable only.
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). Table 73 describes the specifications for the A3cSi optical interface.
BlackDiamond 6800 Series I/O Modules NOTE During the ATM module boot up, the Status and Diag LEDs may be incorrectly lit to solid green or solid amber. The LEDs reflect their true state after approximately 30 seconds when the module has completed its boot cycle. For more information on ATM module LED activity, see “I/O Module LEDs” on page 271. Service Ports The ATM module is equipped with two front-panel service ports: one port is a DB-9 connector; the other is a micro HD-15 connector (see Figure 135).
Configuring I/O Modules • Permanent Virtual Circuits (PVCs) may be associated with one or more VLANs • Routed and bridged encapsulations on the same PVC • Jumbo frames • QoS and DiffServ features, including support for: — Eight ingress queues and eight egress queues per interface — Ingress and egress rate shaping and limiting — IEEE 802.
BlackDiamond 6800 Series I/O Modules QoS and Differentiated Services. The ATM module supports eight ingress queues and eight egress queues per port. The scheduling parameters for these queues (minimum bandwidth, maximum bandwidth, priority level, etc.) are controlled by QoS profiles that you can customize for individual ingress or egress queues on a specific ATM port. You can assign frames to queues based on IEEE 802.
Configuring I/O Modules VLAN ID (VID) Tag Nesting. Another related enhancement provides support for nested 802.1Q tags by allowing a tag push or tag pop attribute to be associated with a VID. The push attribute indicates that a new tag is to be added to the frame, while the pop attribute indicates that the top-level tag is to be removed from the frame. This capability is augmented by an option that allows the 802.
BlackDiamond 6800 Series I/O Modules Table 75: BlackDiamond PoS and ATM module LEDs LED Color Indicates Status Green blinking Normal operation Amber blinking Configuration error, code version error, diagnostic failure, or other severe module error Off No power Off Normal operation Amber blinking Diagnostics in progress Amber Diagnostic failure Green Link up1 Green blinking Link disabled DIAG Port x Activity on link Amber blinking, returning to green Amber blinking Link down; SONET li
Installing I/O Modules To install an I/O module: 1 Select a slot for the module: • Slots numbered 1 through 16 in the BlackDiamond 6816 chassis • Slots numbered 1 through 8 in the BlackDiamond 6808 chassis • Slots numbered 1 through 4 in the BlackDiamond 6804 chassis CAUTION You can install I/O modules only in slots 1 through 16 in the BlackDiamond 6816, slots 1 through 8 in the BlackDiamond 6808, or slots 1 through 4 on the BlackDiamond 6804. I/O modules do not fit in slots A, B, C, or D.
BlackDiamond 6800 Series I/O Modules NOTE Tighten the screws of this module before inserting additional modules. Otherwise, you might unseat modules that you have not secured. 6 Store the module packaging for future use. 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 additional I/O modules, repeat steps 1 through 6.
Removing I/O Modules Removing I/O Modules All BlackDiamond I/O modules are hot-swappable. You do not need to power off the system to remove a module. Complete the action of removing a BlackDiamond I/O module in a reasonable time frame. Be sure to remove the module completely to avoid partial insertion or connection of backplane connectors. NOTE If you remove a BlackDiamond I/O module during traffic flow to the module, several error messages might be written to the log immediately following.
BlackDiamond 6800 Series I/O Modules 276 Extreme Networks Consolidated Hardware Guide
17 BlackDiamond 6800 Series Switch Fan Tray This chapter describes: • BlackDiamond 6816 Fan Trays on page 277 • BlackDiamond 6808 Fan Tray on page 278 • BlackDiamond 6804 Fan Tray on page 279 • Removing a BlackDiamond 6800 Series Fan Tray on page 280 • Installing a BlackDiamond 6800 Series Fan Tray on page 282 NOTE Read the information in this chapter thoroughly before you attempt to install or remove any BlackDiamond fan tray. BlackDiamond 6816 Fan Trays The BlackDiamond 6816 fan trays (no.
BlackDiamond 6800 Series Switch Fan Tray Figure 136: BlackDiamond 6816 fan tray Turn screw heads clockwise to lock & counter-clockwise to unlock fan tray Hand grip Direction of airflow BD_031 BlackDiamond 6808 Fan Tray The BlackDiamond 6808 fan tray (no.
BlackDiamond 6804 Fan Tray Figure 137: BlackDiamond 6808 fan tray BD_fanx BlackDiamond 6804 Fan Tray The BlackDiamond 6804 fan tray (no. 50053): • Contains six individual fans • Is preinstalled at the factory • Is accessed from the front of the chassis • Is hot-swappable which means you can remove and replace the fan tray without powering down the system CAUTION Do not cover or obstruct the fan ventilation holes at the side of the unit.
BlackDiamond 6800 Series Switch Fan Tray Figure 138: BlackDiamond 6804 fan tray Turn screw heads clockwise to lock & counter-clockwise to unlock fan tray Hand grip Direction of airflow XM_030 Removing a BlackDiamond 6800 Series Fan Tray BlackDiamond 6800 series fan trays are hot-swappable. You do not need to turn off power to a BlackDiamond 6800 series switch to remove a fan tray.
Removing a BlackDiamond 6800 Series Fan Tray 3 For the BlackDiamond 6816 switch or the BlackDiamond 6804 switch, use the handle on the front of the fan tray to pull it straight out of the chassis approximately ½ inch (12.7 mm), as shown in Figure 139. This action disconnects the power to the fan tray. For the BlackDiamond 6808 switch, grasp the edges of the two handles on the front of the fan tray to pull it straight out of the chassis approximately ½ inch (12.7 mm), as shown in Figure 140.
BlackDiamond 6800 Series Switch Fan Tray Figure 140: An example of removing the BlackDiamond 6808 fan tray BD_fanx 4 Allow the fan blades to stop spinning before removing the fan tray completely. WARNING! Keep your hands your away from rotating fan blades. 5 Repeat this procedure for additional fan trays, if applicable. 6 Leave the ESD strap permanently connected to the chassis so that it is always available when you need to handle ESD-sensitive components.
Installing a BlackDiamond 6800 Series Fan Tray To install a fan tray into the BlackDiamond 6800 series switch: 1 Attach the ESD strap that is provided to your wrist and connect the metal end to the ground receptacle that is located on the top-left corner of the switch front panel. 2 Check the connectors for dust and packing materials. 3 Ensure that the fan tray is right side up.
BlackDiamond 6800 Series Switch Fan Tray 284 Extreme Networks Consolidated Hardware Guide
Part 6 Switch Operation
18 Initial Switch and Management Access This chapter describes: • Connecting Equipment to the Console Port on page 287 • Logging In for the First Time on page 288 Connecting Equipment to the Console Port Connection to the console port is used for direct local management.
Initial Switch and Management Access Table 77: Pinouts for the console connector (continued) Function Pin Number Direction CTS (clear to send 8 In Figure 141 shows the pinouts for a 9-pin to 25-pin (RS-232) null-modem cable.
Logging In for the First Time 1 Connect a terminal or PC with terminal-emulation software to: • The console port for Summit switches • The SMMi for the Alpine 3808 and Alpine 3804 switches • The console port for the Alpine 3802 switch • The MSM64i for BlackDiamond switches 2 At your terminal, press [Return] one or more times until you see the login prompt. 3 At the login prompt, enter the default user name admin to log on with administrator privileges.
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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 by qualified service personnel only.
Safety Information • The unit must be connected to a grounded outlet to comply with European safety standards. • 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 1 To change the fuse, 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. Fuse UK_fuse To comply with European safety standards, a spare fuse must not be fitted to the appliance inlet. Use only fuses of the same manufacturer, make, and type.
Safety Information • If you are disposing of large quantities, contact a local waste-management service. • No hazardous compounds are used within the battery module. • The weight of the lithium contained in each coin cell is approximately 0.035 grams. • Two types of batteries are used interchangeably: — CR chemistry uses manganese dioxide as the cathode material. — BR chemistry uses poly-carbonmonofluoride as the cathode material.
B Switch Technical Specifications This appendix describes the technical specifications of the Extreme Networks family of switches: • Summit “i” series switch specifications on page 297 • Summit non-“i” series switch specifications on page 299 • Summit24e2 switch specifications on page 300 • Summit24e3 switch specifications on page 301 • SummitPx1 application switch specifications on page 302 • Alpine 3800 series switch specifications on page 302 • BlackDiamond 6800 series switch specifications on page 304
Switch Technical Specifications 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) Safety Certifications and Standards UL 1950 3rd Edition, listed cUL listed to CAN/CSA-C22.
Input Voltage Options 100 VAC to 240 VAC Current Rating 100-120/200-240 VAC 4/2 A Summit7i AC Line Frequency 50 Hz to 60 Hz Input Voltage Options 90 VAC to 264 VAC Current Rating 100-120/200-240 VAC 10/5 A Summit48i AC Line Frequency 50 Hz to 60 Hz Input Voltage Options 85 VAC to 250 VAC Current Rating 100-120/200-240 VAC 3/1.5 A Summit48si AC Line Frequency 50 Hz to 60 Hz, auto ranging Input Voltage Options 100 VAC to 240 VAC Current Rating 100-120/200-240 VAC 3/1.
Switch Technical Specifications 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) Environmental EN60068 to Extreme IEC68 schedule Heat Dissipation 140 W maximum (341.
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) Environmental EN60068 to Extreme IEC68 schedule Heat Dissipation 40 W maximum (136 BTU/hr maximum) Power Supply AC Line Frequency 50 Hz to 60 Hz Input Voltage O
Switch Technical Specifications Current Rating 100-120/200-240 VAC 2.0/1.0 A Table 82: SummitPx1 application switch specifications Physical Dimensions Height: 1.75 inches (4.44 cm) Width: 17.25 inches (43.82 cm) Depth: 21.49 inches (54.58 cm) Weight: 16.75 lbs (7.54 kg) Safety Certifications and Standards UL 60950 3rd Edition, listed cUL listed to CAN/CSA-C22.2 No.
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) Alpine 3802 Height: 7 inches (17.78 cm) Width: 17.32 inches (44 cm) Depth: 12 inches (30.48 cm) Weight, empty chassis: 30 pounds (13.6 kg) Weight, fully loaded chassis: 40 pounds (18.1 kg) Weight, each module: 3 pounds (1.
Switch Technical Specifications Current Rating 100-120 VAC 10 A 200-240 VAC 5 A -40 - -70 VDC 30 A Alpine 3804 AC Line Frequency 50 Hz to 60 Hz Input Voltage Options 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 Input Voltage Options 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.
Certifications and Standards UL 60950 3rd Edition, listed cUL listed to CAN/CSA-C22.2 No.
Switch Technical Specifications 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) Table 85: Common switch specifications Environmental Requirements Operating Temperature 0° to 40° C (32° to 104° F) Storage Temperature -40° to 70 ° C (-40° to 158° F) -10° to 70 ° C (14° to 158° F) (Alpine 3802 only) Operating Humidity 10% to 95% relative humidity, noncondensing
C Module Technical Specifications This appendix describes the technical specifications for both the Alpine and the BlackDiamond modules.
Module Technical Specifications The technical specifications for the Alpine modules are listed in Table 86 through Table 93. The technical specifications for the BlackDiamond modules are listed in Table 94 through Table 104. Specifications common to all modules are listed in Table 105. Alpine Modules Table 86: 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.
Alpine Modules 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 Certifications and Standards NEBS/Telcordia, Type IV, Level 3, GR-1089 Issue2 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) Environmental NEBS/Telcordia, Type IV, Level 3, GR-63 Issue2 EN/ETSI 300 019 Telec
Alpine Modules Table 90: 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.
Module Technical Specifications Electromagnetic Compatibility (EMC) Certifications and Standards NEBS/Telcordia, Type IV, Level 3, GR-1089 Issue2 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) Environmental NEBS/Telcordia, Type IV, Level 3,
Alpine Modules Environmental NEBS/Telcordia, Type IV, Level 3, GR-63 Issue2 EN/ETSI 300 019 Telecommunications NEBS/Telcordia, Type IV, Level 3, GR-1089, GR-63 EN/ETSI 300 386-2 v1.1.3 (1997) T1: FCC CFR 47 Part 68 T1: CAN/CS-03 (Canada) T1: JATA Green Book (Japan) E1: CTR 12/13 (Europe) Table 93: 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.
Module Technical Specifications BlackDiamond Modules Table 94: MSM64i 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 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 Certifications and Standards NEBS/Telcordia, Type IV, Level 3, GR-1089 Issue2 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) Environmental NEBS/Telcordia, Type IV, Level 3, GR-63 Issue2 EN/ETSI 300 019 Telec
BlackDiamond Modules Table 98 describes the immunity standards for the 10GLRi module.
Module Technical Specifications 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 Certifications and Standards NEBS/Telcordia, Type IV, Level 3, GR-1089 Issue2 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) Environmental NEBS/Telcordia, Type IV, Level 3, GR-63 Issue2 EN/ETSI 300 019 Telecommunicatio
Module Technical Specifications Table 102: 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.
BlackDiamond Modules Electromagnetic Compatibility (EMC) Certifications and Standards NEBS/Telcordia, Type IV, Level 3, GR-1089 Issue2 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) Environmental NEBS/Telcordia, Type IV, Level 3, GR-63 Issu
Module Technical Specifications Telecommunications NEBS/Telcordia, Type IV, Level 3, GR-1089, GR-63 EN/ETSI 300 386-2 v1.1.3 (2000) Common Module Specifications Table 105 describes the specifications common to all modules.
Index Numerics 10GLRi module dimensions electromagnetic compatibility environmental standard telecommunications standard weight 243 316 316 316 316 316 A A3cMi module, See ATM module A3cSi module, See ATM module AC power cable retaining bracket, Summit switch 112 Accounting and Routing Module, See ARM module agency certifications Alpine 3800 series switch 303 BlackDiamond 6800 series switch 305 Summit "i" series switch 298 Summit non-"i" series switch 299 Summit24e2 switch 300 Summit24e3 switch 301 Summi
Alpine switch, general agency certifications components ESD, preventing damage features grounding I/O modules environmental requirements port connections power supply power-off specifications amperage, calculating ANSI standards APS summary of support on PoS modules ARM module Destination-Sensitive Accounting destination-sensitive accounting, definition of diagnostic service ports dimensions electromagnetic compatibility environmental standard feature summary GPP subsystem IP unicast forwarding LEDs network
ESD, preventing damage features grounding heat dissipation 110 VAC 220 VAC -48 DC I/O module LEDs I/O modules environmental requirements port connections power supply specifications powering on power-off specifications building codes bundling cable 193 189 209 305 305 305 271 235 322 190 305 217 305 42 54 C cable identification records cable labeling identification records cable manager cable requirements bend radius fiber optic UTP meeting cable types and distances cabling standards ANSI BISCI certificat
FM-32Ti module FM-8Vi module G12SXi module G8Ti module G8Xi module GM-4Si module GM-4Ti module GM-4Xi module GM-WDMi module MPLS module MSM64i module PoS module SMMi module Summit "i" series switch Summit non-"i" series switch Summit24e2 switch Summit24e3 switch SummitPx1 switch WDMi module WM-1T3i module WM-4E1i module WM-4T1i module DIMMs description (Alpine) description (BlackDiamond) installing (MSM64i) installing (SMMi) removing (MSM64i) removing (SMMi) distribution rack requirements grounding the rack
fan tray installing in a BlackDiamond 6804 switch installing in a BlackDiamond 6808 switch installing in a BlackDiamond 6816 switch installing in an Alpine 3804 switch installing in an Alpine 3808 switch removing from a BlackDiamond 6804 switch removing from a BlackDiamond 6808 switch removing from a BlackDiamond 6816 switch removing from an Alpine 3804 switch removing from an Alpine 3808 switch features, Alpine 3800 series switch features, BlackDiamond 6800 series switch features, Summit switch fiber optic
Summit5i switch Summit7i switch SummitPx1 switch HDLC heat dissipation Alpine 3800 series switch BlackDiamond switch 110 VAC BlackDiamond switch 220 VAC BlackDiamond switch -48 DC Summit "i" series switch Summit non-"i" series switch Summit24e2 switch Summit24e3 switch SummitPx1 switch helper bracket, installing a BlackDiamond switch helper bracket, installing a Summit switch helper bracket, installing an Alpine switch High-Level Data Link Control, See HDLC hot insert power supply, Summit48si switch humidit
Summit24e3 switch 102 Summit48i switch 85 Summit48si switch 89 Summit5i switch 78 Summit7i switch 82 SummitPx1 switch 105 management port 28 MSM64i module 226 SMMi module 156 Summit5i switch 78 Summit7i switch 81 Management Switch Fabric Module.
IPCP overview 255 jumbo frame support 255 LCP support 255 LEDs 272 Link Control Protocol. See LCP Link Quality Report Protocol. See LQR LQR 255 MPLS overview 255 MPLSCP support 255 MultiProtocol Label Switch. See MPLS MultiProtocol Label Switching Control Protocol. See MPLSCP NetFlow statistics support 255 network processors 251 optical interface characteristics 251 optical interfaces OC-12 multimode 251 OC-12 single-mode 251 OC-3 multimode 251 OC-3 single-mode 251 OSI Network Layer Control Protocol.
rack-mounting Alpine 3802 chassis 136 Alpine 3804 chassis 136 Alpine 3808 chassis 136 BlackDiamond 6804 chassis 205 BlackDiamond 6808 chassis 205 BlackDiamond 6816 chassis 205 Summit switch 107 radio frequency interference 54, 57 radio frequency interference, avoiding 58 redundant power supply port Summit24 switch 96 Summit4 switch 96 Summit48 switch 96 related publications 22 removing GBIC 38 mini-GBIC 31 power cable from the AC power cable retaining bracket, Summit switch 114 reset button Summit1i switch
heat dissipation LEDs MAC address port configurations power supply power supply specifications power-off specifications rear view reset button serial number size weight Summit24 switch agency certifications certification marks console port dimensions electromagnetic compatibility environmental requirements environmental standard front view GBIC support heat dissipation LEDs MAC address power supply power supply specifications power-off specifications rear view redundant power supply port reset button serial
front view GBIC support heat dissipation LEDs MAC address port configurations power supply power supply specifications power-off specifications rear view reset button serial number size weight Summit48si switch agency certifications bottom view console port location electromagnetic compatibility environmental standard front view heat dissipation LEDs MAC address mini-GBIC support port configurations power supply rear view reset button serial number Summit5i switch agency certifications certification marks c
switch, on/off Alpine 3802 DC switch system budgets, long range GBICs 133 35 T telecommunications standard 10GLRi module Alpine 3800 series switch ARM module 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 G8Ti module G8Xi module GM-4Si module GM-4Ti module GM-4Xi module GM-WDMi module MPLS module PoS module SMMi module WDMi module WM-1T3i module WM-4E1i module WM-4T1i module tempera
WM-1T3i module dimensions electromagnetic compatibility environmental standard telecommunications standard weight WM-4E1i module dimensions electromagnetic compatibility environmental standard telecommunications standard weight WM-4T1i module dimensions electromagnetic compatibility environmental standard telecommunications standard weight Extreme Networks Consolidated Hardware Guide 176 313 313 313 313 313 312 312 312 313 313 312 174 312 312 313 313 312 Index - 335
- Index Extreme Networks Consolidated Hardware Guide
