Cabletron Systems SEHI100TX-22 manual Network Cable Lengths

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Chapter 3: Installation Requirements and Specifications

Propagation delay (collision delay) is the amount of time it takes data to travel from the sending device to the receiving device. Total propagation delay allowed for the entire network is 256 bit times (2.56 s) in one direction (5.12 s round trip). If the total propagation delay between any two nodes on the network exceeds 2.56 s, then use bridges or other devices to further segment the network.

3.2NETWORK CABLE LENGTHS

This section details the maximum network cable lengths specified by the IEEE 802.3u standard for a Class I repeater. As stated previously, the physical size of the network is limited primarily by propagation delay. The round trip delay cannot exceed 512 bit times or 5.12 s.

NOTE

A stack of five SEH hubs or four SEH hubs and one SEHI hub is equivalent to one repeater.

A 100BASE-T network might use all UTP links, all fiber links or a combination of both. Figure 3-1 shows a simplified example of a network with one Class I repeater. Link segments A and B represent the longest links in the network. In this case, if both segment A and segment B are UTP, each segment may be up to 100 meters long for a maximum network length of 200 meters. If segment A is UTP and segment B is fiber optics, the maximum length of the network is 263 meters (with a maximum UTP segment length of 100 meters). If both segments A and B are multimode fiber optics, the maximum length is 274 meters.

If a buffered uplink (EPIM-100FMB) is used, the collision domain is stopped at the EPIM slot. This allows a full length fiber optic link of 400 meters to be used as an uplink while maintaining 100-meter UTP and 400-meter fiber optic lengths to desktops. So if segment A, shown in Figure 3-1, is UTP and segment B is fiber optics, the maximum length of the network is 500 meters. If both segments are fiber optics, the maximum length is 800 meters.

3-4

SEHI100TX User’s Guide

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Contents Intelligent Stackable HUB USER’S Guide Page SEHI100TX User’s Guide DOC Notice Cabletron Software Program License Declaration of Conformity Contents Contents SEHI100TX User’s Guide Vii Contents Viii SEHI100TX User’s Guide Using this Manual Chapter IntroductionDocument Conventions Following conventions are used throughout this documentGetting Help Your email addressRelated Manuals Chapter Sehi Features and Options Sehi OverviewSehi Features Sehi Features and OptionsStackable Capabilities Remote Network Management Rack Mounting CapabilitiesOptional Epims Cable Specifications Chapter Installation Requirements SpecificationsHubSTACK Interconnect Cable Requirements UTP Cable Specifications Multimode Fiber Optic Cable Specifications Network Cable Lengths Network Cable Lengths Network Port Specifications COM Port RequirementsEnvironmental Requirements Operating SpecificationsPower Supply Requirements Agency ApprovalsPhysical Specifications Chapter Installation Unpacking the SehiPRE-INSTALLATION Checkout Nvram Switch LocationTabletop or Shelf Installation Rackmount InstallationAttaching the Strain-Relief Bracket Rackmount Installation Adequate clearance two inches on either side Powering UP and Stacking the Sehi Repeat steps 3 through 6 until all SEH hubs are connected Installing AN Epim Installing an EpimSEHI100TX User’s Guide Connecting the Sehi to the Network Chapter Connecting to the NetworkConnecting to Network Ports Connecting to an EPIM-100TX Sehi Network PortsRX+ TX+ Position = Not crossed over Connecting to an EPIM-100FX or EPIM-100FMB EPIM-100FX or EPIM-100FMB PortTesting the Installation SEHI100TX User’s Guide Chapter Troubleshooting Installation TestUsing Lanview Using Lanview Using the Reset Button Epim 1 RCV LEDSetting the Nvram Switch SEHI100TX User’s Guide Chapter Local Management Keyboard Conventions Keyboard Conventions FunctionManagement Terminal Setup Console Cable Configuration Management Terminal Setup Parameters Accessing Local Management Sehi Local ManagementAccessing Local Management Feature Selection Screen Feature Selection ScreenCommunity Name Table Screen Community Name Table ScreenManagement fields, excluding IP Address Editing the Community Name Field Configuration Screen ConfigurationSetting the IP Address Setting the Subnet Mask Using the Port Enable Override Setting the Default GatewayExiting the Configuration Screen Trap Table Screen Trap Table Screen1 Configuring the Trap Table Exiting the Trap Table Screen Snmp Tools ScreenFollowing sections describe Snmp Tools screen fields Getting Individual OIDs Setting an OID Getting the Next OIDViewing Multiple OIDs Walking Through OIDsRepeating the Last OID Stepping Through OIDsCycling Through OIDs Exiting the Snmp Tools ScreenDevice Statistics Screen Device Statistics ScreenDisplays the number of errors received This command lets the user enable the selected port Using the Disable Port Command Using the Enable Port CommandSelecting the Appropriate Module/Port Setting the UPDATE-FREQency Field Exiting the Device Statistics ScreenEpim Specifications Appendix a Epim SpecificationsEPIM-100TX EPIM-100FX EPIM-100FMB Figure A-3 EPIM-100FMBSEHI100TX User’s Guide Appendix B Image File Download Using OID Strings Setting Unix Workstation AS Tftp Server Standard Local Download Table B-1 OIDs and Settings Index NumericsIndex-2 SEHI100TX User’s Guide Power Supply Cord
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SEHI100TX-22 specifications

Cabletron Systems SEHI100TX-22 is a high-performance network interface card that has been designed for reliable data transfer in various networking environments. Ideal for both enterprise and small business applications, the SEHI100TX-22 delivers exceptional performance at a competitive price point.

One of the standout features of the SEHI100TX-22 is its support for 100Base-TX Ethernet standards, which enables high-speed data transmission at rates of up to 100 Mbps. This high throughput capacity makes it an excellent choice for organizations that require swift and efficient data handling, particularly in environments with heavy network traffic.

The card is equipped with two RJ-45 connectors, allowing it to support dual-port configurations. This dual-port setup enhances networking capabilities by enabling fault tolerance and load balancing, ensuring that the network remains operational even in the event of a failure. Moreover, it supports full-duplex operation, allowing for simultaneous bi-directional data transmission, further improving overall network efficiency and performance.

Another significant advantage of the SEHI100TX-22 is its compatibility with a wide range of operating systems and platforms, including Windows, Linux, and various UNIX variants. This versatility ensures that it can be seamlessly integrated into existing network infrastructures without the need for extensive configuration or modification.

In terms of installation and maintenance, the SEHI100TX-22 is user-friendly, thanks to its Plug and Play capability. This feature allows for easy installation; users can simply insert the card into an available PCI slot, and the operating system will automatically recognize and configure the device, minimizing downtime and simplifying the setup process.

Additionally, the SEHI100TX-22 incorporates advanced technologies like Auto-Negotiation, which automatically detects the speed and duplex capabilities of the connected device, thus optimizing the network performance. The card also features various onboard diagnostic LEDs, providing real-time feedback on connection status and data activity, which aids in troubleshooting and performance monitoring.

In summary, the Cabletron Systems SEHI100TX-22 offers a robust set of features that cater to the demands of modern network environments. With its high-speed capabilities, dual-port support, compatibility across multiple operating systems, and user-friendly installation process, it remains a solid choice for organizations looking to enhance their networking performance and reliability.
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