Cabletron Systems EMM-E6 manual Multimode Fiber Optic Network

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Network Requirements

•Temperature: Multi-pair PVC 24 AWG telephone cables typically have an attenuation of approximately 8-10 dB/100 m at 20°C (68°F).

The attenuation of PVC insulated cable varies signiﬁcantly with temperature. At temperatures greater than 40°C (104°F), we strongly recommend using plenum-rated cable to ensure attenuation remains within speciﬁcation.

C.1.2 Multimode Fiber Optic Network

When connecting a multimode ﬁber optic link segment to the EMM-E6 (using an EPIM-F1/F2), ensure the network meets the following requirements:

•Cable Type: Use the following multimode ﬁber optic media:

-50/125 ∝m ﬁber optic cabling

-62.5/125 ∝m ﬁber optic cabling

-100/140 ∝m ﬁber optic cabling

•Attenuation: You must test the ﬁber optic cable with a ﬁber optic attenuation test set adjusted for an 850 nm wavelength. This test veriﬁes that the signal loss in a cable falls within the following acceptable levels:

-13.0 dB or less for a 50/125 ∝m ﬁber cable segment

-16.0 dB or less for a 62.5/125 ∝m ﬁber cable segment

-19.0 dB or less for a 100/140 ∝m ﬁber cable segment

•Budget and Propagation Delay: When you determine the maximum ﬁber optic cable length to incorporate ﬁber runs into your network, you must calculate and consider the ﬁber optic budget (a total loss of

10.0 dB or less is permissible between stations) and total network propagation delay.

To determine the fiber optic budget, combine the optical loss due to the fiber optic cable, in-line splices, and fiber optic connectors. Typical loss for a splice and connector (together) equals 1 dB or less.

EMM-E6 Installation Guide

C-3

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Contents EMM-E6 Ethernet Bridge Management Module Installation GuidePage EMM-E6 Installation Guide DOC Notice Cabletron Software Program License Declaration of Conformity Contents Adding Epims HOW to USE this Manual Chapter IntroductionEMM-E6 Overview Introduction Following conventions are used throughout this document Document ConventionsGetting Help Related DocumentsFaceplate Chapter Controls and IndicatorsInternal Components Internal Components Epim Connector Pins Ldram Simm Slot Lanview Leds Reset CPU B a Stby RCV XMT CLNLanview Leds EMM-E6 Installation Guide Unpacking the EMM-E6 Chapter InstallationPerform a second visual inspection of the module EMM-E6 Dip Switches Setting Mode SwitchesEMM-E6 Installation Guide PRE-INSTALLATION Test Pre-Installation Test Conﬁguration Install the EMM-E6 into the MMAC-FNB backplane as follows InstallationModule Guide Channels Reset CPU B a Stby RCV XMT CLN Connecting a 10BASE-T Segment to an EPIM-T Connecting to the NetworkPosition X crossed over RX+ TX+ Position = Not crossed over Cable Pinouts RJ45 Port Connecting a 10BASE-F Segment to an EPIM-F2 or EPIM-F3 ST Connector Insertion Connecting a 10BASE-F Segment to an EPIM-F1 SMA Connector Insertion EPIM-A Connecting an AUI Segment to an EPIM-X orConnecting a 10BASE2 Segment to an EPIM-C 10 BNC Connector Insertion 11 Backplane Test Conﬁguration Backplane TestUsing Lanview Leds Chapter TroubleshootingTroubleshooting Using Lanview Leds Troubleshooting Checklist Troubleshooting Checklist EPIM-A Using the Reset Switch EMM-E6 Installation Guide Appendix a Specifications Physical SpecificationsOperating Specifications Environmental Requirements CertificationCOM Port Pinout Appendix B Upgrading the EMM-E6 Locating Brim ConnectorsAdding Epims To install an EPIM, perform the following stepsLocating SIMMs Simm UpgradesFigure B-3, refer to the procedures below Installing SIMMsAppendix C Ethernet Cabling Requirements Network Requirements1 10BASE-T Twisted Pair Network Appendix C Ethernet Cabling Requirements Multimode Fiber Optic Network Single Mode Fiber Optic Network Transceiver Requirements 4 10BASE2 Coaxial Cable NetworkEMM-E6 Installation Guide Numerics IndexIndex-2 EMM-E6 Installation Guide Lanview LEDs EMM-E6Installation

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