8000/8600 Getting Started Guide Revision Date: 11.27.
ELECTRICAL HAZARD: Only qualified personnel should perform installation procedures. NOTICE Enterasys Networks reserves the right to make changes in specifications and other information contained in this document and its web site without prior notice. The reader should in all cases consult Enterasys Networks to determine whether any such changes have been made. The hardware, firmware, or software described in this document is subject to change without notice.
FCC NOTICE This device complies with Part 15 of the FCC rules. Operation is subject to the following two conditions: (1) this device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation. NOTE: This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant to Part 15 of the FCC rules.
CLASS 1 LASER TRANSCEIVERS THE SINGLE MODE INTERFACE MODULES USE CLASS 1 LASER TRANSCEIVERS. READ THE FOLLOWING SAFETY INFORMATION BEFORE INSTALLING OR OPERATING THESE MODULES. The Class 1 laser transceivers use an optical feedback loop to maintain Class 1 operation limits. This control loop eliminates the need for maintenance checks or adjustments. The output is factory set, and does not allow any user adjustment. Class 1 Laser transceivers comply with the following safety standards: • 21 CFR 1040.
ENTERASYS NETWORKS, INC. PROGRAM LICENSE AGREEMENT BEFORE OPENING OR UTILIZING THE ENCLOSED PRODUCT, CAREFULLY READ THIS LICENSE AGREEMENT. This document is an agreement (“Agreement”) between You, the end user, and Enterasys Networks, Inc. (“Enterasys”) that sets forth your rights and obligations with respect to the Enterasys software program (“Program”) in the package. The Program may be contained in firmware, chips or other media.
. EXCLUSION OF WARRANTY. Except as may be specifically provided by Enterasys in writing, Enterasys makes no warranty, expressed or implied, concerning the Program (including its documentation and media).
DECLARATION OF CONFORMITY Application of Council Directive(s): 89/336/EEC 73/23/EEC Manufacturer’s Name: Manufacturer’s Address: European Representative Address: Conformance to Directive(s)/Product Standards: Equipment Type/Environment: Enterasys Networks, Inc. 35 Industrial Way PO Box 5005 Rochester, NH 03866-5005 Enterasys Networks Ltd.
vi Enterasys X-Pedition 8000/8600 Getting Started Guide
Contents Notice ..................................................................................................................... ii About this Guide .................................................................................................. xi What’s New................................................................................................................................xi Who should Read this Guide?........................................................................................
Contents Appendix B: Hardware Components...............................................................105 SSR-ATM29-02 ..................................................................................................................... 106 SSR-CM2B-64, SSR-CM3-128, and SSR-CM4-256 ............................................................ 107 SSR-FDDI-02......................................................................................................................... 109 SSR-GLX39-02.............
About this Guide This guide provides a general overview of the 8-slot and 16-slot Enterasys Networks X-Pedition 8000 and X-Pedition 8600 hardware and software features. It provides procedures for installing the X-Pedition 8000 and X-Pedition 8600. For product information not available in this guide, see the manuals listed in Related Documentation on page xii.
Preface How to Use this Guide If you want to... See...
Chapter 1 Features Overview The 8-slot and 16-slot Enterasys Networks X-Pedition 8000 and X-Pedition 8600 provide nonblocking, wire-speed Layer-2 (switching), Layer-3 (routing) and Layer-4 (application) switching. This chapter provides a basic overview of the X-Pedition 8000 and X-Pedition 8600 software and hardware feature set. • If you want to skip this information and install the X-Pedition now, see Chapter 2, Hardware Installation.
Specifications The following table lists the basic hardware and software specifications for the X-Pedition.
Specifications Feature Specification Port mirroring • Traffic to the control module • Traffic from specific ports • Traffic to specific chassis slots (line cards) Hot swapping • Line cards • Control module (when redundant control module is installed and online) • Switching Fabric Modules (X-Pedition 8600 only—when redundant switch fabric is installed and online) • Power Supply (when redundant supply is installed and online) Load balancing/ sharing • Enterasys SmartTRUNK support • Load
Specifications TCP/UDP Services The following table lists some well-known TCP/UDP services provided by the X-Pedition.
Features Features This section describes the following X-Pedition features: • Address-based and flow-based bridging • Port-based VLANs and protocol-based VLANs • IP and IPX routing • Layer-4 (application) switching • Security • Quality of Service (QoS) • Statistics • Management Bridging The X-Pedition provides the following types of wire-speed bridging: • Address-based bridging – The X-Pedition performs this type of bridging by looking up the destination address in an L2 lookup table on th
Features Port and Protocol VLANs The X-Pedition supports the following types of Virtual LANs (VLANs): • Port-based VLANs – A port-based VLAN is a set of ports that comprises a Layer-2 broadcast domain. The X-Pedition confines MAC-layer broadcasts to the ports in the VLAN on which the broadcast originates. X-Pedition ports outside the VLAN do not receive the broadcast. • Protocol-based VLANs – A protocol-based VLAN is a named set of ports that comprises an IP or IPX broadcast domain.
Features IP Routing The X-Pedition supports the following IP unicast routing protocols: • RIP v1 and RIP v2 • OSPF v2 • BGP 2,3,4 IP interfaces do not use a specific routing protocol by default. When you configure an interface for routing, you also specify the routing protocol the interface will use. IP Multicast Routing The X-Pedition supports the following IP multicast routing protocols: • IGMP • DVMRP • PIM-SM The X-Pedition does not use a specific IP Multicast routing protocol by default.
Features • Layer-4 flows – The X-Pedition can store Layer-4 flows on each line card. A Layer-4 flow consists of the source and destination addresses in the IP or IPX packet combined with the TCP or UDP source and destination port number (for IP) or the source and destination socket (for IPX). You can therefore manage and control individual flows between hosts on an individual application basis. A single host can have many individual Layer-4 entries in the X-Pedition.
Features You can configure QoS policies for the following types of traffic: • Layer-2 prioritization (802.1p) • Layer-3 source-destination flows • Layer-4 source-destination flows • Layer-4 application flows Statistics The X-Pedition can provide extensive statistical data on demand.
Hardware Overview Hardware Overview This section describes the X-Pedition hardware modules with which you will be working. Chapter 2 in this guide describes how to install the hardware. This section describes the following hardware: • Chassis • Backplane • Fan module • Control Module • Power Supply • Switching Fabric Module (X-Pedition 8600 only) • Line cards Chassis Figure 1 shows the front view of a fully loaded X-Pedition 8000 chassis.
Hardware Overview Figure 2 shows the front view of a fully loaded X-Pedition 8600 chassis. The X-Pedition 8600 chassis is similar to the X-Pedition 8000 chassis, except for the following: • The chassis can contain up to 16 line cards. • The switching fabric is stored on a separate module. • There is a slot for a redundant switching fabric module. • The power supply is larger.
Hardware Overview On both the X-Pedition 8000 and X-Pedition 8600, slot 0 is labeled “CM” and contains the primary control module. The CM slot cannot be used for line cards. The primary control module must be installed in this slot. The CM/1 slot can contain a redundant control module (if you install one) or can contain a line card. Slots 2 to 7 on the X-Pedition 8000 or slots 2 to 15 on the X-Pedition 8600 can contain any line cards unless otherwise noted in Installing Line Cards on page 71.
Hardware Overview 3. Slide the new fan tray completely into the slot. Fans will start up and the LED on the front of the fan tray will light if the fan is installed properly. Once the fan tray is installed, the following message is displayed on the console: %SYS-I-FANSOKAY, system fans are operational. 4. Tighten the captive screws.
Hardware Overview Control Modules The control module is the X-Pedition’s central processing unit. It contains system-wide bridging and routing tables. Traffic that does not yet have an entry in the L2 and L3/L4 lookup tables on individual line cards is sent to the control module. After processing traffic, the control module updates the L2 and L3/L4 tables on the line cards that received the traffic. The line cards thus “learn” about how to forward traffic.
Hardware Overview 128MB DIMM), or 256MB (in two 128MB DIMMs). See Installing a Memory Upgrade on page 66 for the upgrade procedure. External Controls The control module has the following external controls. Where appropriate, this guide describes how to use the controls. • Male DB-9 Data Communications Equipment (DCE) port for serial connection from a management terminal. Use this port to establish a direct CLI connection to the X-Pedition. The default baud rate is 9600.
Hardware Overview AC Power Supply The power supply delivers 3.3, 5, and 12 volts DC to the X-Pedition’s control module(s), fan modules, and other components. A single power supply provides enough current to operate a fully configured chassis—with the exception of certain line cards. For information about these cards, refer to Installing Line Cards on page 71. The power supply has its own internal cooling fan. The vent on the front of the power supply is the inlet vent for the cooling fan.
Hardware Overview AC Power Supply Specifications The following table lists the specifications for the X-Pedition’s AC power supplies. X-Pedition 8000 X-Pedition 8600 Dimensions 8.27 in. H x 17.25 W x 12.25 D 22.23 cm H x 43.82 W x 31.12 D 8.27 in. H x 17.23 W x 19.25 D 22.23 cm H x 43.82 W x 48.9 D Weight Pounds: 24Lbs Kilograms: 10.8 Kg Pounds: 47 Lbs Kilograms: 21.
Hardware Overview DC Power Supply The X-Pedition DC power supply delivers 3.3, 5, and 12 volts DC to the X-Pedition’s control module(s), fan modules, and other components. A single DC power supply provides enough current to operate a fully configured chassis—with the exception of certain line cards. For information about these cards, refer to Installing Line Cards on page 71. Figure 6 shows the front view of an X-Pedition 8000 DC power supply.
Hardware Overview DC Power Supply Specifications The following table lists the physical specifications for the X-Pedition’s DC power supplies. X-Pedition 8000 X-Pedition 8600 Input Voltage 48 to 60 VDC (14 Amperes Max.) 48 to 60 VDC (27 Amperes Max.) Output Wattage 390 Watts 780 Watts 70 Amps 25 Amps 2 Amps 140 Amps 50 Amps 4 Amps Dimensions 11.00 in. L x 7.70 W x 2.55 H 27.94 cm L x 19.55 W x 6.47 H 12.15 in. L x 7.70 W x 5.05 H 30.86 cm L x 19.55 W x 12.82 H Weight 6.5 lb (2.95 kg) 12.
Hardware Overview LEDs Table 2. X-Pedition 8600 Switching Fabric module LEDs LED Condition Description Offline Amber The module is offline (powered off) and is ready for hot swap. The Offline LED also lights briefly during a reboot or reset of the X-Pedition and goes out as soon as the control module discovers and properly initializes the switching fabric module. Online Green The module is online and is ready to receive, process, and send packets if configured to do so.
Hardware Overview SSR-ARE The Advanced Routing Engine (ARE) provides the X-Pedition 8000/8600 an avenue for routing protocols other than IP and IPX—currently, the ARE supports only the Appletalk protocol. The ARE is powered by a RISC processor that operates at 380Mhz, providing lightning-fast routing of your personal appletalk traffic. If you use a VLAN to create an AppleTalk interface, you must use an AppleTalk procotol-based VLAN.
Hardware Overview Options Available This module operates with the following APHYs (you may purchase them separately from the module) connected to the outside world. For information about these APHYs, consult the Enterasys Networks web site. Caution: The X-Pedition-APHY-21 and X-Pedition-APHY-29IR use Class 1 Lasers. Do not use optical instruments to view laser output. The use of optical instruments to view laser output increases eye hazard.
Hardware Overview APHY-92V • APHY-92V PHY 1 E-1 interface (UTP); see APHY-82V on page 81 for attaching cables Note: APHY-21 • ITU-T G.703 for a symmetrical pair • 120 ohm symmetrical pair • Maximum of 655 ft (200 m) of cable • 0 through 6 dB loss at 200 m • 1 OC-3c MMF interface (SC-style); see APHY-21 and APHY29IR on page 81 for attaching cables • EIA/TIA 492-AAAA • 62.5/125 µm • Maximum cable length cannot exceed 2 kilometers (maximum will allow up to three cables—two splices).
Hardware Overview Interface X-Pedition 8000/8600 2-port base module Physical Dimensions Size: 27.94 cm H x 19.68 W x 3.94 D (11.00 in. H x 7.75 W x 1.55 D) Weight: 1.4 kg (3.0 lb) Temperature Operating: 41° to 104°F (5° to 40°C) Storage: -22° to 164°F (-30° to 73°C) Humidity 5% to 90% (non-condensing) LEDs Table 3. SSR-ATM29-02 LED Indicators LED Condition Status Hot Swap (2) Yellow (Top) Unit is not functioning, cannot hot swap. Green (Bottom) Unit is operational.
Hardware Overview SSR-CM2B-64, SSR-CM3-128, and SSR-CM4-256 The SSR-CM2B-64, SSR-CM3-128, and SSR-CM4-256 are Control Modules for the X-Pedition 8000 and X-Pedition 8600 product family. The CM4, targeted for applications that require higher processing power, uses a 380Mhz RISC processor and detection circuitry to maximize the internal clock speed for the given chassis.
Hardware Overview SSR-FDDI-02 The SSR-FDDI-02 module supports high-performance translation from Ethernet, Fast Ethernet, Gigabit Ethernet, and ATM to FDDI, as well as connectivity between FDDI modules. IP Fragmentation support allows the module to fragment FDDI frames into multiple, smaller Ethernet frames. MTU path discovery support allows the module to transport the maximum size of packet to its end destination.
Hardware Overview LEDs Table 4.
Hardware Overview SSR-GLX39-02 The SSR-GLX39-02 (T-Series) line card provides the same features as the SSR-GSX31-02 line card, but supports single mode fiber (SMF) as well as multimode fiber (MMF). Figure 10 shows the front panel of the SSR-GLX39-02 (T-Series) line card. SSR-GLX39-02 1000BASE-LX Tx Link Rx AN Offline 1 Tx Link Rx AN 2 Hot Online Gigabit Port Swap Gigabit Port Figure 10. Front panel of SSR-GLX39-02 (T-Series) line card LEDs Table 5.
Hardware Overview Table 5. SSR-GLX39-02 line card LED Indicators (Continued) LED Condition Status Per-port AN Green The line card has auto negotiated the operating mode of the link between full-duplex and half-duplex. Amber (intermittent) Auto-Negotiation is in process. Amber (solid) Indicates a problem with Auto-Negotiation configuration. Red Indicates an Auto-Negotiation failure. This fault may occur if the link partner does not support full duplex.
Hardware Overview SSR-GLX39-04 and SSR-GSX31-04 The SSR-GLX39-04 and SSR-GSX31-04 are 4-port, T-Series Gigabit Line Cards for the X-Pedition 8000 and X-Pedition 8600 switch routers. The SSR-GLX39-04 connects to 1000BASELX fiber and the SSR-GSX31-04 connects to 1000BASE-SX fiber.
Hardware Overview Number of Flows/Routes Layer-2 Entries = 512,000 (memory size = 32 MB) Layer-3 Entries = 256,000 (memory size= 16 MB) Switch Method Address-based and Flow-based. Queue Buffer Input packet memory size: 8 MB Output packet memory size: 8 MB Physical Dimensions Size: 3.94 cm H x 19.68 W x 27.94 D (1.55 in. H x 7.75 W x 11 D) Weight: 1.4 kg (3.
Hardware Overview LEDs Table 6. SSR-GLX39-04 and SSR-GSX31-04 LED Indicators LED Condition Status Offline On The line card is offline (powered off) and ready to hot swap. This LED also lights briefly whey you reboot or reset the X-Pedition but turns off as soon as the control module discovers the SSR-GLX39-04 or SSR-GSX31-04. Online On Per-Port Link Green The SSR-GLX39-04 or SSR-GSX31-04 is ready to receive, process, and send packets (if configured).
Hardware Overview SSR-GLX70-01-AA and SSR-GLH39-02 The SSR-GLX70-01-AA and SSR-GLH39-02 line cards are similar to the SSR-GLX39-02 line card, but extend the transmission distance over single mode fiber (SMF) to 70 kilometers for Gigabit Ethernet. Figure 11 shows the front panel of the 1000BASE-LLX line card. SSR-GLX70-01-AA Offline 1000BASE-LLX 1 Tx Link Hot Online Swap Rx AN Gigabit port Figure 11.
Hardware Overview Table 7. SSR-GLX70-01-AA and SSR-GLH39-02 line card LEDs (Continued) LED Condition Description Per-port Link Green The port hardware detects a cable plugged into the port and a good link is established. Red (intermittent) Indicates that the port received an error during operation. Red (solid) The port hardware detected a cable plugged into the port, however, a bad link is established. Off Indicates that no link from the port exists.
Hardware Overview SSR-GSX21-02-AA and SSR-GLX29-02-AA The SSR-GSX21-02-AA and SSR-GLX29-02-AA line cards contain two independent Gigabit (1000 Mbps) Ethernet ports. The ports connect to multimode fiber (MMF) cables. Figure 10 shows the front panel of the SSR-GSX21-02-AA line card. SSR-GSX21-02-AA Offline 1000BASE-LX Tx Link Rx AN 1 Tx Link Rx AN 2 Hot Online Gigabit Port Swap Gigabit Port Figure 13. Front panel of SSR-GSX21-02-AA line card LEDs Table 8.
Hardware Overview Table 8. SSR-GSX21-02-AA and SSR-GLX29-02-AA line card LEDs 36 LED Condition Description Per-port AN Green The line card has auto negotiated the operating mode of the link between full-duplex and half-duplex. Amber (intermittent) Auto-Negotiation is in process. Amber (solid) Indicates a problem with Auto-Negotiation configuration. Red Indicates an Auto-Negotiation failure. This fault may occur if the link partner does not support full duplex.
Hardware Overview SSR-GSX31-02 The SSR-GSX31-02 line card contains two independent Gigabit (1000 Mbps) Ethernet ports. The ports connect to multimode fiber (MMF) cables. Figure 14 shows the front panel of the SSRGSX31-02 (T-Series) line card. SSR-GSX31-02 1000BASE-SX Tx Link Rx AN Offline 1 Tx Link Rx AN 2 Hot Online Gigabit Port Swap Gigabit Port Figure 14. Front panel of SSR-GSX31-02 (T-Series) line card LEDs. Table 9.
Hardware Overview Table 9. SSR-GSX31-02 line card LEDs (Continued) 38 LED Condition Description Per-port AN Green The line card has auto negotiated the operating mode of the link between full-duplex and half-duplex. Amber (intermittent) Auto-Negotiation is in process. Amber (solid) Indicates a problem with Auto-Negotiation configuration. Red Red – indicates an Auto-Negotiation failure. This fault may occur if the link partner does not support full duplex.
Hardware Overview SSR-GTX32-04 and SSR-GTX32-02 The SSR-GTX32-04 is a 4-port and the SSR-GTX32-02 a 2-port copper-based 1000BASE-T Gigabit Ethernet module for the X-Pedition platform. Figure 15 displays the front panel of an SSRGTX32-04. SSR-GTX32-04 T T T T R R R R Offline L L L L Online Q Q Q Q Hot Swap T R Offline L Online Q Figure 15.
Hardware Overview Number of Flows/Routes Layer-2 Entries =512,000 (memory size = 32 MB) Layer-3 Entries = 256,000 (memory size = 16 MB) Physical Dimensions Size: 27.94 cm H x 3.94 W x 19.68 D (11.00 in. H x 1.55 W x 7.75 D) Weight: 1.4 kg (3.0 lbs) Temperature Operating: 41° to 104° F (5° to 40° C) Storage: -22° to 164° F (-30° to 73° C) Humidity 15% to 90% (non-condensing) LEDs Table 10.
Hardware Overview SSR-HFX21-08-AA and SSR-HFX29-08-AA The SSR-HFX21-08-AA and SSR-HFX29-08-AA line cards provide the same features as the SSRHTX22-08-AA line card but use a multimode fiber-optic cable (MMF) to connect to the network. The MMF line cards are available in 4 MB and 16 MB versions. Figure 16 shows the front panel of the 4 MB SSR-HFX21-08-AA line card.
Hardware Overview SSR-HSSI-02-CK The HSSI interface extends the benefits of the X-Pedition router to the WAN, providing application-level control and wire-speed across high-speed WAN connections. The HSSI interface supports PPP and Frame Relay at speeds up to 52 Mbps. Typical applications include T3/E3 circuits or inverse multiplexed T1 connections. Flow Rate Limiting, Weighted Random Early Discard and Weighted Fair Queuing work together to manage and prevent congestion.
Hardware Overview LEDs Table 12. SSR-HSSI-02-CK LED Indicators LED Condition Status Online (2) Green The unit is operational and functioning properly. Offline (2) Amber The unit is not operational. You may remove the unit from the chassis. Tx (4) Amber A frame was transmitted. Rx (4) Amber A frame was received. Link (4) Green A valid link is established on the port.
Hardware Overview SSR-HTX22-08-AA and SSR-HTX12-08-AA The SSR-HTX22-08-AA and SSR-HTX12-08 line cards contain eight independent Ethernet ports. Each port senses whether it is connected to a 10-Mbps segment or a 100-Mbps segment and automatically configures itself as a 10BASE-T or 100BASE-TX port. Figure 18 shows the front panel of the SSR-HTX22-08-AA line card.
Hardware Overview SSR-HTX32-16 The SSR-HTX32-16 16-port line card contains 16 independent Ethernet ports. Each port senses whether it is connected to a 10-Mbps segment or a 100-Mbps segment and automatically configures itself as a 10BASE-T or 100BASE-TX port. Figure 19 shows the front panel of the SSR-HTX32-16 line card. SSR-HTX32-16 10/100BASE-TX Offline Hot Online 2 1 4 3 6 5 8 7 10 9 12 11 14 13 16 15 Swap Figure 19. Front panel of SSR-HTX32-16 (T-Series) line card LEDs Table 14.
Hardware Overview SSR-POS29-04 and SSR-POS21-04 The SSR-POS29-04 and SSR-POS21-04 modules provide high-speed connectivity to SONET networks. These modules support ACL-based filtering, Layer-4 application-aware switching, QOS features, and Server Load Balancing. The SSR-POS29-04 and SSR-POS21-04 are available as 4-port OC-3 SMF or MMF models and are compatible with the X-Pedition 8000/8600 hardware platforms.
Hardware Overview Temperature Operating: 41° to 104° F (5° to 40° C) Storage: -22° to 164° F (-30° to 73° C) Humidity 15% to 90% (non-condensing) LEDs Table 15. SSR-POS29-04 and SSR-POS21-04 LED Indicators LED Condition Status Online Green The module is online and ready to receive, process, and send packets (if configured to do so). Offline Amber The module is offline (powered down) and ready to hot swap. Transmit Green The port transmitted a packet.
Hardware Overview SSR-POS39-02 and SSR-POS31-02 The SSR-POS39-02 and SSR-POS31-02 modules provide high-speed connectivity to SONET networks. These modules support ACL-based filtering, Layer-4 application-aware switching, QOS features, and Server Load Balancing. The SSR-POS39-02 and SSR-POS31-02 are available as 2-port OC-12 SMF or MMF models and are compatible with the X-Pedition 8000/8600 hardware platforms.
Hardware Overview Humidity 15% to 90% (non-condensing) LEDs Table 16. SSR-POS39-02 and SSR-POS31-02 LED Indicators LED Condition Status Online On (Green) The module is online and ready to receive, process, and send packets (if configured to do so). Offline On (Amber) The module is offline (powered down) and ready to hot swap. Transmit Green The port transmitted a packet. Red The port transmitted a flow-control packet. Green The port received a packet.
Hardware Overview SSR-SERCE-04-AA and SSR-SERC-04-AA The SSR-SERCE-04-AA and SSR-SERC-04-AA line cards each contain two dual-serial WAN ports (two serial ports located on one high density connector). In addition, the Quad Serial – C line card includes compression, and the Quad Serial – CE line card includes compression and encryption, for each WAN port. Figure 22 shows the front panel of the Quad Serial – CE WAN line card.
Chapter 2 Hardware Installation This chapter provides hardware installation information and procedures in the following sections: • Safety considerations • Installing the hardware If the hardware is already installed and you are ready to install the software and perform basic system configuration, see Chapter 3, Software Installation and Setup. Safety Considerations Read the following safety warnings and product cautions to avoid personal injury or product damage.
Safety Considerations • Never operate the X-Pedition if the chassis becomes wet or the area where the chassis is installed is wet. Preventing Equipment Damage Observe the precautions listed in this section to prevent accidental damage to the X-Pedition components. Cautions: To prevent accidental product damage, observe the following precautions: • Always use proper electrostatic discharge (ESD) gear when handling the control module, backplane, line cards or other internal parts of the chassis.
Hardware Specifications Hardware Specifications The following table lists the physical and environmental specifications for the X-Pedition 8000 and X-Pedition 8600. X-Pedition 8000 X-Pedition 8600 Dimensions 8.75 in. H x 17.25 W x 12.25 D 22.3 cm H x 43.82 W x 31.12 D 19.25 in. H x 17.25 W x 12.25 D 48.9 cm H x 43.82 W x 12.25 D Weight Pounds: 40 lbs Kilograms: 18.2 Kg Pounds: 61.
Hardware Specifications Table 18. Power Consumption (Continued) 54 SSR-GLX70-01-AA SSR 1-Port 70km GbE LX (SMF) 16MB line card 5.40 0.50 SSR-GLX39-02 SSR Gigabit Jumbo Packet 7.32 0.51 SSR-GLX39-04 SSR Gigabit Jumbo Packet (Blackbird) 13.16 0.98 SSR-GLH39-02 SSR Gigabit Jumbo Packet 7.32 0.51 SSR-GSX21-02-AA SSR 2-Port Gigabit Ethernet-SX 16 MB line card 5.40 0.50 SSR-GSX31-02 SSR Gigabit Jumbo Packet 7.32 0.51 SSR-GSX31-04 SSR Gigabit Jumbo Packet (Blackbird) 13.16 0.
Installing the Hardware Installing the Hardware This section describes how to perform the following tasks: • Check the shipping box to ensure that all the parts arrived • Install the chassis (on a tabletop or in an equipment rack) • Install the control module • Install a memory upgrade • Install the switching fabric module (X-Pedition 8600 only) • Install line cards • Install the power supply (either AC or DC) • Attach console management cables • Attach port cables Verifying Your Shipment
Installing the Hardware Depending on your order, your shipment may also contain some or all of the following: • Redundant power supply, if you ordered one. • Redundant control module, if you ordered one. • Redundant Switching Fabric Module, if you ordered one (X-Pedition 8600 only). • The line cards you ordered. Installing the Chassis Enterasys recommends that only qualified personnel conduct installation of any X-Pedition chassis.
Installing the Hardware Rack Mount Installation You can install the X-Pedition in a standard 19-inch equipment rack. The X-Pedition chassis is equipped with front-mounting brackets. Figure 23 shows an example of how to install an X-Pedition 8600 chassis in an equipment rack. SSR-8 Figure 23. Installing the X-Pedition 8600 chassis in an equipment rack Note: Never attempt to rack mount the X-Pedition chassis unaided. Ask an assistant to help you hold the chassis.
Installing the Hardware 2. Along with an assistant, lift the chassis into place in the mounting rack. 3. While your assistant holds the chassis in place, use the #2 Phillips screwdriver and four #2 Phillips screws to attach the mounting brackets to the mounting rack. Note: Make sure there are at least 3 inches (7.62 centimeters) of room above and behind the unit for air flow to the cooling fans. Caution: Make sure the screws are tight before your assistant releases the chassis.
Installing the Hardware The following table lists the environmental specifications for the X-Pedition’s AC power supplies. Operating Temperature +5 to +40 °C (41 to 104 °F) Non-operating Temperature -30 to +73 °C (-22 to 164 °F) Operating Humidity 15 to 90% (non-condensing) Figure 24 shows an example of how to install an AC power supply. The procedure following the figure describes how to do this. PWR SSR-8 100-125~5A 200-240~3A 50-60 Hz SSR-PS-8 Figure 24.
Installing the Hardware 4. Use the #2 Phillips screwdriver to tighten the captive screws on each side of the power supply to secure it to the chassis. 5. Attach the power cable to the AC power supply. Installing a DC Power Supply The X-Pedition DC power supply delivers 3.3, 5, and 12 volts DC to the X-Pedition’s control module(s), fan modules, and other components. A single DC power supply provides enough current to operate a fully-configured chassis.
Installing the Hardware The following table lists the environmental specifications for the X-Pedition’s DC power supplies. Operating Temperature +5 to +40 °C (41 to 104 °F) Non-operating Temperature -30 to +73 °C (-22 to 164 °F) Operating Humidity 15 to 90% (non-condensing) DC Power Supply Installation Procedure To install a DC power supply on the X-Pedition 8000 or X-Pedition 8600: 1. Ensure that the DC power supply is not powered on. 2.
Installing the Hardware X-Pedition 8000 DC Power Supply Figure 25 shows the front view of an X-Pedition 8000 DC power supply. ! To be installed in a restricted access area in accordance with the NEC or authority having jurisdiction. See manual for installation instructions. PWR 48/60V 14A MAX SSR-PS-8-DC SN Figure 25.
Installing the Hardware Internally, the X-Pedition 8600 DC power supply consists of two separate power supplies. Each of these internal power supplies must be energized to produce sufficient power for the X-Pedition 8600 to operate. Each internal power supply is connected to source power through a pair of positive (+) and negative (-) wiring lugs on the wiring block. Figure 27 shows the internal relationship of the wiring lugs of the X-Pedition 8600 DC power supply.
Installing the Hardware gauge negative (-) wires are connected to the X-Pedition 8600 DC power supply wiring block. See Figure 28. XP-8600 Wiring Lugs 8-Gauge Wire (Green) From True Ground Conductive Splitter Block From - 48-Volt Source 12-Gauge Wire (Black) 6-Gauge Wire (Black) 12-Gauge Wire (Black) + Conductive Splitter Block + From + 48-Volt Source 6-Gauge Wire (Red) - 12-Gauge Wire (Red) 12-Gauge Wire (Red) Figure 28.
Installing the Hardware Installing the Control Module The primary control module always resides in the CM slot. If you need to replace the primary control module in the CM slot, or you want to install a redundant control module in slot CM/1, use the following procedure (you will need a #2 Phillips screwdriver to perform this procedure). The primary control module must be installed in slot CM. The redundant control module must be installed in slot CM/1.
Installing the Hardware Firmware Image Requirements Version 8.2.0.0 or later. Default Module Settings The CM4 comes with the baud rate on RS232 console port set to 9600. Preparing the Module • You must install the PCMCIA card before you install the command module. You cannot add or remove a PCMCIA card while the unit is powered on. Installing a Memory Upgrade CAUTION: Before performing any upgrade or installation, ensure that you are properly “grounded” to avoid electrostatic discharge.
Installing the Hardware 3. Loosen captive screws. Use a phillips screwdriver to loosen the captive screws on the face of the module. 4. Remove the Control Module. Pull the Control Module out of the X-Pedition chassis and place it on an ESD-safe work area.The Control Module memory resides in slots P7 and P8. Figure 4 shows the location of the DIMM slots—slot P7 is the slot closest to the backplane.
Installing the Hardware Note: Make sure that the circuit card is between the card guides. Check both tracks. Card Guides Circuit Card SSR-CM2-64 Console CONTROL MODULE 10/100 Mgmt Metal Plate SSR-8 Figure 32. Insert card between card guides 68 7. Slide the upgraded Control Module back into the chassis. Return the Control Module to the chassis, firmly but gently pressing the line module fully in place to ensure that the pins on the back of the line card are completely seated in the backplane. 8.
Installing the Hardware Installing the Switching Fabric Module (X-Pedition 8600 only) On the X-Pedition 8600, the switching fabric module is shipped separately from the X-Pedition chassis. To install or replace the primary switching fabric module, or if you want to install a redundant switching fabric module, use the following procedure. You will need a #2 Phillips screwdriver to perform this procedure. The primary switching fabric module must be installed in slot Fabric 1.
Installing the Hardware Note: 70 Make sure the circuit card (and not the metal plate) is between the card guides, as shown in Figure 30 on page 65. Check both the upper and lower tracks. 3. Lock down the left and right metal tabs to secure the switching fabric module to the chassis. 4. Use the #2 Phillips screwdriver to tighten the captive screws on each side of the switching fabric to secure the switching fabric to the chassis.
Installing the Hardware Installing Line Cards ELECTRICAL HAZARD: Only qualified personnel should perform installation procedures. You can install line modules in slots 1 to 7 on the X-Pedition 8000 (slot 0 allows a control module only) or 1 to 15 on the X-Pedition 8600 (again, slot 0 allows a control module only). If you plan to install a redundant control module, you may install line cards in slots 2–7 on the X-Pedition 8000 and 2–15 on the X-Pedition 8600.
Installing the Hardware Table 19. Line card installation notes (Continued) SSR-CM2B-64 SSR-CM3-128 SSR-CM4-256 Minimum Firmware Restrictions Special Instructions E8.2.0.0 WARNING: The SSR-CM4-256 is designed for slots 0 and 1 only, and is easily damaged by electrostatic discharge. Proper Boot Sequence CAUTION: You cannot hot swap the Primary CM; however, you may hot swap a Secondary CM by pressing the hot swap button. Note: You cannot use a CM4 with CM3 or CM2 command modules.
Installing the Hardware Table 19. Line card installation notes (Continued) SSR-GLX39-04 SSR-GSX31-04 Minimum Firmware Restrictions Special Instructions 8.3.0.0 Note: If your system uses a redundant power configuration or only one power supply, you will not be able to support more than 5 SSRGLX39-04 and SSR-GSX31-04 cards in the X-Pedition 8000 and 10 in the X-Pedition 8600.
Installing the Hardware Table 19. Line card installation notes (Continued) SSR-GTX32-04 SSR-GTX32-02 Minimum Firmware Restrictions Special Instructions 9.0.0.0 Note: The SSR-GTX32-02 line card does not support 10/100 Mbps traffic. Proper Boot Sequence • Offline LED lights at power-up. Default Module Settings • Port LEDs flicker briefly during system boot while ports initialize.
Installing the Hardware Table 19. Line card installation notes (Continued) SSR-POS29-04 SSR-POS21-04 SSR-POS39-02 SSR-POS31-02 Minimum Firmware Restrictions Special Instructions 9.0.0.2 Note: If your system uses a redundant power configuration or only one power supply, you will not be able to support more than 5 cards in the X-Pedition 8000 and 10 in the X-Pedition 8600. Proper Boot Sequence 9.0.0.2 • Offline LED lights at power-up.
Installing the Hardware Table 19. Line card installation notes (Continued) SSR-SERC-04-AA Minimum Firmware Restrictions Special Instructions E8.3.0.0 CLI Setup Proper Boot Sequence Enter the following command at the CLI before implementing any configurations. • Firmware loads. • The control module for the chassis should indicate that the SSR-SERC-04-AA was detected and is operating correctly.
Installing the Hardware Handling the Module Caution: Line cards are easily damaged by electrostatic discharge. To prevent electrostatic damage, observe the following guidelines: • Do not remove the module from its packaging until you are ready to install it. • Do not touch any of the module’s pins, connectors or components. • Hold the module only by its edges or front panel. • Wear an anti-static wristband connected to a suitable earth ground whenever handling the module.
Installing the Hardware Instructions Caution: You may install the line card in the chassis with the chassis powered up. However, before removing an existing line card, Hot Swap the line card as described under Hot Swap on page 77. 1. If a coverplate is installed in the line module slot, remove the coverplate: loosen the captive screws on each side of the coverplate and pull out the plate. 2. Align the backsheet of the line card between the card guides as shown in Figure 34.
Installing the Hardware Installing FPHYs The FDDI (Fiber Distributed Data Interface) line card has modular PHYs supporting multimode fiber (MMF), single mode fiber (SMF), and unshielded twisted pair (UTP). Installing the FDDI module is a two-part process: first, install the PHY cards into the line card; then, install the line card in the SSR. Preparing the Module • Before installing the module, you must install at least one of the following FPHYs (purchased separately): FPHY-01, FPHY-02, or FPHY-09.
Installing the Hardware Installing the ATM PHY Cards Each ATM line card has two slots available for PHY cards. One ATM PHY card can be installed into each available slot. You will need a #2 Phillips screwdriver to perform this procedure. Figure 35 shows an example of how to install a PHY card. The procedure following the figure describes how to do this. Seat screws into mounting holes, then press PHY card to fully engage connector ATM Board Guide Rails Phy Card Figure 35.
Installing the Hardware 5. Push the PHY card into the slot until the 96-pin connector is firmly seated on the motherboard. 6. Fasten the PHY card to the system unit with the two captive screws. Torque to 5 in-lb (0.56 N-m). Connecting ATM PHY Cards The following are instructions on how to attach cables to the various PHY interface cards. APHY-67 and APHY-77 To attach the segment cables to your APHY-67 and APHY-77 card: 1.
Installing the Hardware 2. Line up the transmit cable connector with the transmit port and the receive cable connector with the receive port. Insert the connectors, ensuring that the key is correctly positioned. APHY-22 To attach the segment cables to your APHY-22 card: 82 1. Align the key of the modular jack (MJ) plug with the locking key of the MJ receptacle. 2. Push the MJ plug into the receptacle until the plug mates fully with the locking key.
Chapter 3 Software Installation and Setup This chapter provides the following software installation and basic setup procedures: • Installing the PCMCIA flash card (if you are upgrading from the software version on the X-Pedition’s boot flash) • Powering on and booting the software • Starting the Command Line Interface (CLI) • Setting basic system information • Setting up SNMP community strings • Setting up passwords • Setting the DNS domain name and address • Setting SYSLOG parameters • Loa
Installing a PCMCIA Flash Card Installing a PCMCIA Flash Card The control module PCMCIA flash card contains a version of the system image software that is installed at the factory. If you have a more recent system image and want to boot the X-Pedition using the newer software, you must boot either from a PCMCIA card or from a TFTP server. To install a PCMCIA card: 1. Power off the X-Pedition. Cautions: Do NOT install or remove a PCMCIA card while the X-Pedition is running. 2.
Installing a PCMCIA Flash Card – The X-Pedition will boot up and the following messages will appear, indicating that the PCMCIA flash card was installed successfully: %SYS-I-FLASHCRD, Mounting 32MB Flash card %SYS-I-FLASHMNTD, 32MB Flash card mounted – The X-Pedition will start to boot up but stop after a few seconds, leaving the router in boot mode. If the X-Pedition displays the “external flash card absent” message, the PCMCIA flash card was not found and an image was not loaded.
Powering On and Booting the Software Powering On and Booting the Software To power on the X-Pedition and boot the software: 1. Make sure any exposed expansion slots are free of foreign objects, such as tools or your hands, and are covered with coverplates. 2. Plug the X-Pedition’s power supplies into a power source. Assuming that your power source is currently active, the router will automatically power on and attempt to boot using the software image in the motherboard’s boot flash.
Starting the Command Line Interface Starting the Command Line Interface After the software has successfully booted and you press Return (or Enter) to activate the CLI, the CLI prompts you for a password. You can define separate passwords for login access and Enable mode. The factory default password for both of these is set to blank (simply press Return).
Starting the Command Line Interface Basic Line Editing Commands The CLI supports EMACs-like line editing commands. The following table lists some commonly used commands. For a complete set of commands, see the Enterasys X-Pedition User Reference Manual. Table 20.
Setting Basic System Information Setting Basic System Information Use the procedure in this section to set the following system information: • System time and date • System name • System location • Contact name (the person to contact regarding this router) Note: Some of the commands in this procedure accept a string value. String values can be up to a maximum of 255 characters in length, including blank spaces.
Setting Basic System Information 7. To display the active configuration, enter the system show active-config command. Changes in the active configuration take effect on the running system but will not be restored following a reboot. 8. To guarantee that changes are restored following a reboot, you must save the active database to the Startup configuration file: a. Ensure that you are in Enable mode by entering the enable command in the CLI. b. Enter the copy active to startup command.
Setting Up SNMP Community Strings Setting Up SNMP Community Strings When you use SNMP to manage the X-Pedition, you will need to set up an SNMP community. Otherwise, the X-Pedition’s SNMP agent runs in local trap process mode until you disable it using the snmp stop command. In addition, if you want to be able to access the SNMP traps issued by the X-Pedition’s SNMP agent, you need to specify the IP address of the target for the SNMP traps.
Setting Up Passwords Setting Up Passwords By default, the X-Pedition operates in single-user mode with password access enabled and no passwords defined. To define a password for Login, Enable, or Configure mode, use the system set password command from Configure mode. The following example sets an Enable mode password: xp(config)# system set password enable MyPassword Note: Passwords are case sensitive. In other words, the X-Pedition recognizes upper- and lowercase letters as different characters (e.g.
Setting Up Passwords To keep your passwords secure, the X-Pedition does not have a command for displaying passwords. If you forget a password, you can remove the password by entering the following command while in Configure mode. (See the Enterasys X-Pedition Command Line Interface Reference Manual for more information.
Setting the DNS Domain Name and Address Setting the DNS Domain Name and Address If you want the X-Pedition to be able to access a DNS server, use the following procedure to specify the domain name and IP address for the DNS server. 1. Enter the enable command in the CLI to enter Enable mode. 2. Use the ping command to verify that the X-Pedition can reach the DNS server. 3. Enter the configure command in the CLI to enter Configure mode. 4.
Setting SYSLOG Parameters Setting SYSLOG Parameters The CLI can use SYSLOG messages to communicate the following types of messages to a SYSLOG server: • Fatal – Provide information about events that caused the X-Pedition to crash and reset. • Error – Provide information about errors. • Warning – Warns against invalid configuration information and other conditions that are not necessarily errors. This is the default.
Loading System Image Software Loading System Image Software The X-Pedition operates using the system image software installed in its internal flash chip. To upgrade the system software and operate using the upgraded image, use the following procedure: 1. Enter the enable command in the CLI to enter Enable mode. 2. To display the current boot settings, enter the system show version command. Note: 3. Copy the software upgrade you want to install onto a TFTP server that the X-Pedition can access.
Loading Boot Firmware Loading Boot Firmware The X-Pedition boots using the Boot Firmware installed in its internal memory. To upgrade the Boot Firmware and boot using the upgraded image, use the following procedure. 1. Enter the system show version command to display the current boot settings. Note: A “slot0:boot” location indicates that the X-Pedition is set to use the factory-installed software in the motherboard’s internal flash chip. 2.
Activating Configuration Changes and Saving the Configuration File Activating Configuration Changes and Saving the Configuration File The X-Pedition uses three special configuration files: • Active – The commands from the Startup configuration file and any configuration commands that you have made active from the scratchpad. Caution: The active configuration remains in effect only during the current power cycle.
Activating Configuration Changes and Saving the Configuration File Saving the Active Configuration to the Startup Configuration File After you save the configuration commands in the scratchpad, the X-Pedition executes the commands and makes the corresponding configuration changes. However, if you power down or reboot the X-Pedition, the new changes are lost.
Activating Configuration Changes and Saving the Configuration File 100 Enterasys X-Pedition 8000/8600 Getting Started Guide
Appendix A Troubleshooting If you experience difficulty with the basic hardware or software setup procedures in this guide, check the following table. If you find a description of the difficulty you are experiencing, try the recommended resolution. If the resolution does not remove the difficulty or it is not listed in this appendix, see Appendix C for information about contacting Enterasys Networks for technical support.
Problem Solution The control module is not active. Check the power cable and the circuit to which the power supply is connected. If the power supply is working, make sure the control module is inserted all the way into its slot in the chassis and the captive screws are screwed in. The control module must be in slot 0 or 1—not in a line card slot. 102 No line cards are active. Check the power cable and the circuit to which the power supply is connected. A specific line card is inactive.
Problem Solution The X-Pedition is not resolving DNS names. Use the procedure in Setting the DNS Domain Name and Address on page 94 to set up DNS. If you have already performed this procedure, make sure you can use NS lookup on the DNS server to get the default domain. An SNMP manager cannot access the X-Pedition. Use the procedure in Setting Up SNMP Community Strings on page 91 to set up an SNMP community string and specify a target for SNMP traps.
104 Enterasys X-Pedition 8000/8600 Getting Started Guide
Appendix B Hardware Components This appendix contains cabling and LED information about the following hardware components: • SSR-ATM29-02 on page 106 • SSR-CM2B-64, SSR-CM3-128, and SSR-CM4-256 on page 107 • SSR-FDDI-02 on page 109 • SSR-GLX39-02 on page 110 • SSR-GLX39-04 and SSR-GSX31-04 on page 111 • SSR-GLX70-01-AA and SSR-GLH39-02 on page 112 • SSR-GSX21-02-AA and SSR-GLX29-02-AA on page 113 • SSR-GSX31-02 on page 114 • SSR-GTX32-04 and SSR-GTX32-02 on page 115 • SSR-HFX21-08-AA and
SSR-ATM29-02 SSR-ATM29-02 Connectivity Guidelines Table 21.
SSR-CM2B-64, SSR-CM3-128, and SSR-CM4-256 SSR-CM2B-64, SSR-CM3-128, and SSR-CM4-256 Connectivity Guidelines Table 22. Control Module Recommended Cable Types and Specifications Cable Type Max. Length Connector 10BASE-T Cat. 3, 4, 5 100-ohm UTP 100 m (328 ft) RJ-45 100BASE-TX Cat. 5 100-ohm UTP 100 m (328 ft) RJ-45 VART Serial Connection Serial Cable DB9 The control modules have two ports for attaching management consoles to the X-Pedition.
SSR-CM2B-64, SSR-CM3-128, and SSR-CM4-256 Table 24.
SSR-FDDI-02 SSR-FDDI-02 Connectivity Guidelines Table 25. SSR-FDDI-02 Recommended Cable Types and Specifications Cable Type Max. Length Connector FDDI Copper Cat. 3, 4, 5 100-ohm UTP 100 m (328 ft) RJ-45 Multimode Fiber 62.5/125 2 km (1.24 mi) SC Single Mode Fiber 10/125 30 km (18.64 mi) SC Optics Table 26.
SSR-GLX39-02 SSR-GLX39-02 Cabling and Connector Specifications The following table lists the media specifications for the SSR-GLX39-02 (T-Series) line card. Table 29. SSR-GLX39-02 Media Specifications Port Type Specification 1000BASE-LX • 802.3z standard (also uses 802.3x for flow control) • SC-style Media Interface Connector (MIC); either connection pin in the MIC can be used for transmit or receive; see SSR-GLX39-02 on page 110 for attaching cables • 62.
SSR-GLX39-04 and SSR-GSX31-04 SSR-GLX39-04 and SSR-GSX31-04 Connectivity Guidelines Table 31. SSR-GLX39-04 (1000BASE-LX) Single Mode Fiber Specifications Fiber Diameter Modal Bandwidth Range Connector 62.5/125 µm 160 MHz/km 2-220 m (7-722 ft) SC 200 MHz/km 2-275 m (7-902 ft) SC 400 MHz/km 2-500 m (7-1641 ft) SC 500 MHz/km 2-550 m (7-1805 ft) SC N/A 2-5000 m (7-16404 ft) SC 50/125 µm 10/125 µm SMF Table 32.
SSR-GLX70-01-AA and SSR-GLH39-02 SSR-GLX70-01-AA and SSR-GLH39-02 Cabling and Connector Specifications The following table lists the media specifications for the SSR-GLX70-01-AA and SSR-GLH39-02 (T-Series) line cards. Table 35. SSR-GLX70-01-AA and SSR-GLH39-02 Media Specifications Port Type Specification 1000BASE-LX • 802.3z standard (also uses 802.
SSR-GSX21-02-AA and SSR-GLX29-02-AA SSR-GSX21-02-AA and SSR-GLX29-02-AA Connector Pin Assignments The connector pins are assigned as follows: Table 37. SSR-GSX21-02-AA and SSR-GLX29-02-AA Rx/Tx Pin Assignments Pin Connection Rx When connecting ports with a Fiber Optic cable, ensure that you mate the connections properly (i.e., connect Tx ports to Rx ports). This may require the use of a fiber crossover cable.
SSR-GSX31-02 SSR-GSX31-02 The SSR-GSX31-02 line card uses SC-style Media Interface Connectors (MICs) to attach to multimode fiber (MMF) cables. To attach the segment cables to your SSR-GSX31-02 line card, obtain an MMF cable with an SC MIC and plug the MIC into the port connector. When you plug the other end of the cable into another device, ensure that the cable connected to the transmit port on the X-Pedition is connected to the receive port on the other device.
SSR-GTX32-04 and SSR-GTX32-02 SSR-GTX32-04 and SSR-GTX32-02 Connectivity Guidelines Table 41. SSR-GTX32-04 and SSR-GTX32-02 Recommended Cable Types and Specifications Cable Type Max. Length Connector 1000BASE-T Cat. 5 100-ohm UTP 100 m (328 ft) RJ-45 Connector Pin Assignments The connector pins are assigned as follows: Table 42.
SSR-HFX21-08-AA and SSR-HFX29-08-AA SSR-HFX21-08-AA and SSR-HFX29-08-AA The SSR-HFX29-08-AA line card and the SSR-HFX21-08-AA line cards use SC-style Media Interface Connectors (MICs) to attach to multimode fiber (MMF) cables. To attach the segment cables to your SSR-HFX29-08-AA line card or SSR-HFX21-08-AA line cards, obtain an MMF cable with an SC MIC and plug the MIC into the port connector.
SSR-HSSI-02-CK SSR-HSSI-02-CK Connectivity Guidelines Table 44. SSR-HSSI-02-CK Recommended Cable Types and Specifications Cable Type Max. Length Connector HSSI Cable HSSI Recommended 3 meters (10 feet) segment length for standard WAN line card-to-CSU/DSU data port.1 50-pin High Speed Serial Interface (HSSI) connector; see SSR-HSSI-02-CK on page 117 for pin assignments 1. Connector cables for WAN line cards may be ordered from Enterasys Networks.
SSR-HSSI-02-CK Note: Because neither connector at the ends of the SYS-HSSI-CAB cable is keyed, you can simply plug either end of the cable into either your SSR-HSSI-02-CK line card or the remote HSSI CSU/DSU data port. Figure 38 shows the pin positions in the 50-pin HSSI connector. 25 1 50 26 Figure 38. 50-pin HSSI connector The Enterasys SSR-HSSI-02-CK line card uses standard copper twisted-pair cable with identical 50-pin HSSI connectors at each end to attach to a CSU/DSU module.
SSR-HTX22-08-AA and SSR-HTX12-08-AA SSR-HTX22-08-AA and SSR-HTX12-08-AA Cabling and Connector Specifications The following table lists the media specifications for the SSR-HTX22-08-AA line card. Table 46. SSR-HTX22-08-AA Media Specifications Port Type Specification 10BASE-T • 802.
SSR-HTX22-08-AA and SSR-HTX12-08-AA Table 47. RJ-45 Connector Pin Assignments (Continued) Line Card RJ-45 Connector Pin Number RJ-45 Connector at Other End of Segment TXD (transmit data) 6 RXD (receive data) Unused 7 Unused Unused 8 Unused Figure 39 shows the pin positions in the SSR-HTX22-08-AA and SSR-HTX12-08-AA connectors. 87654321 Figure 39. SSR-HTX22-08-AA and SSR-HTX12-08-AA RJ-45 connectors 2.
SSR-HTX32-16 SSR-HTX32-16 Cabling and Connector Specifications The following table lists the media specifications for the SSR-HTX32-16 (T-Series) line card. Table 48. SSR-HTX32-16 Media Specifications Port Type Specification 10BASE-T • 802.3 standard • RJ-45 connector wired as Media Data Interface Crossed (MDIX); see Figure 39 for pin assignments • EIA Category 3, 4, or 5 unshielded twisted pair cabling • Maximum 100 meters (328 feet) segment length • 802.
SSR-POS29-04 and SSR-POS21-04 SSR-POS29-04 and SSR-POS21-04 Connectivity Guidelines Table 49. SSR-POS29-04 and SSR-POS21-04 Recommended Cable Types and Specifications Cable Type Max. Length Connector 1300 nm MMF 62.5/125 um 2,000 m (1.24 mi) MT-RJ 1300 nm SMF 9/125 um 15,000 m (9.32 mi) MT-RJ SSR-POS39-02 and SSR-POS31-02 Connectivity Guidelines Table 50. SSR-POS39-02 and SSR-POS31-02 Recommended Cable Types and Specifications 122 Cable Type Max. Length Connector 1300 nm MMF 62.
SSR-SERCE-04-AA and SSR-SERC-04-AA SSR-SERCE-04-AA and SSR-SERC-04-AA Cabling and Connector Specifications The following table lists the media specifications for the Quad Serial – C/CE line cards. Table 51. SSR-SERCE-04-AA and SSR-SERC-04-AA Media Specifications Port Type Specification Dual serial V.35, X.21, EIA530, EIA530A, or RS449 LFH-60 high density connector; see LFH-60 high density connector on page 124 for pin assignments.
SSR-SERCE-04-AA and SSR-SERC-04-AA The following table maps the pin assignments for Enterasys’s LFH-60 high density connectors for the SSR-SERCE-04-AA and SSR-SERC-04-AA line cards. Table 53.
Appendix C Technical Support Getting Help For additional support related to the Common CLI syntax or this document, contact Enterasys Networks using one of the following methods: World Wide Web http://www.enterasys.com/ Phone (603) 332-9400 Internet mail support@enterasys.com FTP Login ftp://ftp.enterasys.
Getting Help • The device history (i.e., have you returned the device before, is this a recurring problem, etc.
Index Numerics 10/100BASE-T management port 15 1000BASE-LLX line card 33, 112 1000BASE-SX line card 37 1000-Mbps port 37 8000 chassis 10 8600 chassis 11 A access modes Configure mode 87 Enable mode 87 User mode 87 active configuration 98 address-based bridging 5 agent 9 APHY-21 23 APHY-22 23 APHY-29IR 23 APHY-67 22 APHY-77 22 APHY-82V 22 APHY-92V 23 application switching 7 Command Line Interface 9 access modes Configure mode 87 Enable mode 87 User mode 87 configuration file 98 Configure mode 87 contact na
Index G NVRAM 14 Getting help 125 O H hardware installation 51 overview 10 specifications 53 hot swap fan tray 12 HP/OpenView 9 I IGMP 7 injury, avoiding 22, 51 installation, software 83 IP multicasting 7 IP routing 6 IPX RIP 7 IPX routing 6 IPX SAP 7 ISO OSI model 3 L L2 lookup table 5 Layer-2 5 Layer-2 VLANs 6 Layer-3 6 Layer-3 VLANs 6 Layer-4 7 LED, power supply 17 LEDs 15 10/100BASE-TX 20, 44, 45 1000BASE-LX 35 1000BASE-SX 37 100BASE-FX 41 Quad Serial - C/CE 50 Line card installation notes 71 OC-
Index laser ii safety precautions 22, 51 SAP 7 scratchpad 98 security 8 Serial - C/CE line card, overview 50 serial port 15 SNMP 9 setting up 91 software booting 86 installation 83 overview 5 Solaris 9 specifications, hardware 53 SPECTRUM 9 SSR-ARE 21 SSR-ATM29-02 21, 24, 106 SSR-CM2B-64 25, 107 SSR-CM3-128 25, 107 SSR-CM4-256 25, 107 SSR-FDDI-02 26, 109 SSR-GLH39-02 33, 112 SSR-GLX29-02-AA 35, 113 SSR-GLX39-02 28, 110 SSR-GLX39-04 30, 111 SSR-GLX70-01-AA 33, 112 SSR-GSX21-02-AA 35, 113 SSR-GSX31-02 37, 11
Index 130 Enterasys X-Pedition 8000/8600 Getting Started Guide
