Foundry Networks FGS648P-POE Troubleshooting Network Connections, Tracing a Route, Command Syntax

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FastIron GS Compact Layer 2 Switch Hardware Installation Guide

Tracing a Route

To determine the path through which a Foundry device can reach another device, enter a command such as the following at any level of the CLI on the Foundry device:

FastIron>traceroute 192.33.4.7

Syntax: traceroute <host-ip-addr> [maxttl <value>] [minttl <value>] [numeric] [timeout <value>] [source-ip <ip addr>]

The CLI displays trace route information for each hop as soon as the information is received. Traceroute requests display all responses to a given TTL. In addition, if there are multiple equal-cost routes to the destination, the Foundry device displays up to three responses by default.

Troubleshooting Network Connections

For the indicated port, verify that both ends of the cabling (at the Foundry device and the connected device) are snug.

Verify that the Foundry device and the connected device are both powered on and operating correctly.

Verify that you have used the correct cable type for the connection:

For twisted-pair connections to an end node, use straight-through cabling.

For fiber-optic connections, verify that the transmit port on the device is connected to the receive port on the connected device, and that the receive port on the device is connected to the transmit port on the connected device.

Verify that the port has not been disabled through a configuration change. You can use the CLI. If you have configured an IP address on the device, you also can use the Web management interface or IronView Network Manager.

For copper ports, you can test the cable using Virtual Cable Testing. See “Using Virtual Cable Testing to Diagnose a Cable” .

If the other procedures don’t resolve the problem, try using a different port or a different cable.

Using Virtual Cable Testing to Diagnose a Cable

FGS devices support Virtual Cable Test (VCT) technology. VCT technology enables you to diagnose a conductor (wire or cable) by sending a pulsed signal into the conductor, then examining the reflection of that pulse. This method of cable analysis is referred to as Time Domain Reflectometry (TDR). By examining the reflection, the Foundry device can detect and report cable statistics such as local and remote link pair, cable length, and link status.

Configuration Notes

This feature is supported on copper ports only. It is not supported on fiber ports.

The port to which the cable is connected must be enabled when you issue the command to diagnose the cable. If the port is disabled, the command is rejected.

If the port is operating at 100 Mbps half-duplex, the TDR test on one pair will fail.

If the remote pair is set to forced 100 Mbps, any change in MDI/MDIX may cause the device to interpret the Multilevel Threshold-3 (MLT-3) as a reflected pulse, in which case, the device will report a faulty condition. In this case, Foundry recommends that you run the TDR test a few times for accurate results.

Command Syntax

To diagnose a cable using TDR, enter a command such as the following at the Privileged EXEC level of the CLI:

FastIron#phy cable-diag tdr 1

The above command diagnoses the cable attached to port 1.

Syntax: phy cable-diag tdr <port-num>

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© 2007 Foundry Networks, Inc.

September 2007

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Contents FGS Release Page Contents Hecking C Onnectivity Hardware Specifications Egulatory S Tatements Chapter About This Guide IntroductionWhat’s Included in This Edition? AudienceHow to Get Help Warranty CoverageRelated Publications Chapter Product Overview Product OverviewSoftware Features Hardware FeaturesFGS624P and FGS624P-POE FGS624XGP and FGS624XGP-POE FGS648P and FGS648P-POEControl Features Shows the FGS648P and FGS648P-POESerial Management Interface Console Port Optional 2-port 10-GbE Module port 49Reset Button Network InterfacesNetwork Interfaces Show Media Description 10/100/1000 Mbps Ports Port 10-GbE ModulePort CX4 Module Release Port 10-GbE Hybrid Interface Module Release10GbE XFP Transceiver FGS624XGP Models Only 10GbE XG and CX4 Module CX4 10Gbps XFP TransceiverLEDs for Network Interfaces and Power Supplies LEDsPosition State Meaning 10/100/1000 Copper Port LEDs 100/1000 Fiber Port LEDsPower Supply LEDs Position State MeaningGbps Port LEDs POE Port LEDsPower Supplies Fiber Optic ModulesPosition State Meaning Stacking LEDs Power Specifications for POE Cooling System and FansSeptember Chapter Installing the FastIron GS Chassis Package ContentsUnpacking a System General RequirementsSummary of Installation Tasks Summary of Installation Tasks Where to Find More InformationInstallation Precautions General PrecautionsLifting Precautions Summary of Installation TasksPower Supply Precautions Preparing the Installation Site Installing an Additional Power SupplyCabling Infrastructure Installation Location Installing an AC Power Supply Power supply locking screw LatchesRetaining Bale AC Power Cord Installing a DC Power Supply Ground screw Negative terminal screw Ground Installing the Device Desktop InstallationRack Mount Installation Attaching the Short Mounting Brackets Wall Mount Installation Installing the Brackets and Mounting the DevicePowering On the System Install top screws Install devicePowering Off the System Verifying Proper OperationObserving the Power Status LEDs LEDs for PowerAttaching a PC or Terminal FastIron FastIron-PREM DB-9 to DB-9 Chapter Connecting Network Devices Checking Connectivity Assigning Permanent PasswordsRecovering from a Lost Password Configuring IP Addresses Devices Running Layer 2 SoftwareConnecting Network Devices Cable SpecificationsConnecting to Ethernet or Fast Ethernet Hubs Connecting to Workstations, Servers, or Routers Connecting a Network Device to a Fiber PortInstalling a Fiber Optic Module Automatic MDI/MDIX DetectionTesting Connectivity Cleaning the Fiber-Optic ConnectorsPinging an IP Address Cabling a Fiber Optic ModuleObserving LEDs Network Connection-Related LED StatesDesired Meaning Abnormal Meaning/Action State Troubleshooting Network Connections Using Virtual Cable Testing to Diagnose a CableConfiguration Notes Command SyntaxViewing the Results of the Cable Analysis This LineCable Statistics Displays September Managing Temperature Settings Using the Temperature SensorDisplaying the Temperature Chapter Managing the FastIron GS ChassisDisplaying Temperature Messages Changing the Temperature Warning LevelChanging the Chassis Temperature Polling Interval Displaying Management Module CPU UsageRemoving MAC Address Entries September Chapter Hardware Specifications Chassis SpecificationsPower Supply Specifications Chassis Specifications Physical Dimensions and WeightEnvironmental Considerations Storage EnvironmentCooling Regulatory ComplianceChassis Regulatory Compliance Description Certifications Power Source Interruptions Mean Time Between FailurePower Draw Specifications Power Supply Draw Specifications Model Typical MaximumPinouts and Signalling Serial Console Port PinoutsLists the pin assignment and signalling for 10/100/100 ports 10/100 and Gigabit Port PinoutsLC connector 62.5/125 200 For SFP module Power Supply Specifications Power CordsWarranty LC connector 1530.33 Up to For XFP module 1561.42 nm 80 kmKey features Power Supply Consumption 10 Maximum Power Supply Consumption for FGS Models FGS624FGS648 Input Connector and Plug 11 Input Connector for Power SuppliesPower Supply Input Connector Properties Safety Warnings 13 Safety Warning Labels on Power SuppliesElectrical Specifications Output SpecificationsHardware Maintenance Schedule Replacing a Power SupplyChapter Maintaining the FastIron GS Hardware Installation Precautions and Warnings Determining Which Power Supply FailedAC Power Supplies Removing an AC Power Supply Locking screwInstalling an AC Power Supply DC Power Supplies Removing a DC Power Supply Shows a front view of the DC power supplyInstalling a DC Power Supply Ground Installing or Replacing a 2-port 10-GbE Module Installing a 2-port 10-GbE ModuleRemoving a 2-port 10-GbE Module Installing or Replacing a POE Daughter Card Installing a 2-port 10-GbE ModuleDisassembling the Chassis Removing the Screws for the Top CoverInstalling a POE Daughter Card Removing the Top CoverPOE Daughter Card Re-assembling the Chassis POE Daughter CardsReplacing a Fiber Optic Module Removing a Fiber Optic ModuleCleaning the Fiber-Optic Connectors Installing a New Fiber Optic ModuleCabling a Fiber Optic Module Digital Optical Monitoring Status Value DescriptionCLI Commands No optical-monitor alarm intervalSupported Media Show optic port/slotnumberAppendix a Regulatory Statements Industry Canada StatementEurope and Australia JapanEnglish Translation of above statement Appendix B Foundry Networks, Inc Page Foundry Networks, Inc Page September Page September
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