Cabletron SystemsメーカーBRIM-F6の使用説明書/サービス説明書
ページ先へ移動 of 43
BRIM-F6 USER’S GUIDE BRIM-F Book Page 1 Monday, January 29, 1996 9:26 AM.
.
BRIM-F6 User’s Guide i CONTENTS CHAPTER 1 INT R ODUCTIO N ........................................................ . 1-1 1.1 Using Thi s Manua l ...................................................................... . 1-2 1.2 Getting Hel p .........
.
BRIM-F6 User’s Guide Page 1-1 CHAPTER 1 INTR ODUCTION Welcome to the Cabletron Systems BRIM-F6 User’s Guide . This manual describes features, explains installation procedures, and pro vides specifications for the BRIM-F6 — Cabletron Systems FDDI Bridge/ Router Interface Module (BRIM).
CHAPTER 1: INTRODUCTION Page 1-2 BRIM-F6 User’s Guide 1.1 Using This Manual Read through this manual completely to familiarize yourself with its content and to gain an understanding of the features and capabilities of the BRIM-F6. In addition to having a general w orking kno wledge of Ethernet and IEEE 802.
BRIM-F6 Overview BRIM-F6 User’s Guide Page 1-3 1.3 BRIM-F6 Overview The BRIM-F6 is an FDDI Bridge Router Interface Module (BRIM) de veloped for use in Cabletron’ s MMAC-FNB and MicroMMA C. The BRIM-F6 can be used to provide a high-speed uplink from lo wer speed networks such as Ethernet to a 100 Mbps FDDI backbone.
CHAPTER 1: INTRODUCTION Page 1-4 BRIM-F6 User’s Guide LANVIEW Diagnostic LEDs The BRIM-F6’ s front panel LEDs help you diagnose Bridge, Port, and Network status. 1.5 Related Documentation Use the follo wing documentation to supplement the procedures, and other technical data in this manual.
BRIM-F6 User’s Guide Page 2-1 CHAPTER 2 INST ALLA TION This chapter contains instructions for unpacking the BRIM-F6, installing FPIMs, and installing the BRIM-F6 into Cabletron de vices that support BRIM technology . Note : The BRIM-F6 is not shipped with the FPIMs installed.
CHAPTER 2: INSTALLATION Page 2-2 BRIM-F6 User’s Guide 2.2 Installing the FPIMs T o install an FPIM into the BRIM-F6: 1. Remove the screws securing the FPIM coverplate and the coverplate. See Figure 2-1. 2. Insert the connector pins of the FPIM into the connector on the BRIM-F6.
Installing the BRIM-F6 BRIM-F6 User’s Guide Page 2-3 Figure 2-2. Installing FPIMs 2.3 Installing the BRIM-F6 This section contains procedures on ho w to install a BRIM-F6 to upgrade or change the capabilities of a de vice’ s motherboard.
CHAPTER 2: INSTALLATION Page 2-4 BRIM-F6 User’s Guide 2.3.1 Installing a BRIM-F6 into a MIM T o install a BRIM-F6 in a Media Interface Module (MIM) that supports BRIM technology (e.g., EMM-E6): Note : W e recommend that you power down your hub even though Cabletr on MIMs have “hot swap” capabilities.
Installing the BRIM-F6 BRIM-F6 User’s Guide Page 2-5 Figure 2-3. Installing the BRIM-F6 The BRIM-F6 requires a special 24 pin ribbon connector in addition to the standard 96 pin BRIM connector . This ribbon connector allo ws the BRIM-F6 to use in-line filtering functionality .
CHAPTER 2: INSTALLATION Page 2-6 BRIM-F6 User’s Guide T o install the BRIM-F6 ribbon cable: 1. Insert one ribbon cable connector into the ribbon cable jack on the BRIM. (See Figure 2-4.) Figure 2-4. Installing the BRIM-F6 Ribbon Cable Caution: The ribbon cable connector only fits into the ribbon cable jack one way .
Installing the BRIM-F6 BRIM-F6 User’s Guide Page 2-7 3. Insert the remaining ribbon cable connector into the ribbon cable jack on the MIM. 4. Press down on the connector until the clips on the jack snap into a vertical locked position.
CHAPTER 2: INSTALLATION Page 2-8 BRIM-F6 User’s Guide 9. Press down firmly on the back of the BRIM until the pins slide all the way into the connector holes. Note: Make sur e that the standoffs align with the standoff scr ew holes. 10. Reinstall the coverplate/faceplate screws and standoff screws.
BRIM-F6 User’s Guide Page 3-1 CHAPTER 3 USING LANVIEW LANVIEW is a visual diagnostic and status monitoring system de veloped by Cabletron Systems. LANVIEW LEDs (see Figure 3-1) help you troubleshoot Bridge, Port, and Network problems. The follo wing sections describe BRIM-F6 LEDs.
CHAPTER 3: USING LANVIEW Page 3-2 BRIM-F6 User’s Guide TWR (T wisted Ring) When ON, this Red LED indicates an undesirable cable connection. TWR illuminates when you connect A to A, or B to B, instead of A to B, or B to A. The BRIM-F6 supports undesirable configurations, b ut alerts you to them.
BRIM-F6 User’s Guide Page 4-1 CHAPTER 4 SPECIFICA TIONS This chapter lists the operating specifications for the BRIM-F6. Cabletron Systems reserves the right to change these specifications at an y time, without notice.
CHAPTER 4: SPECIFICATIONS Page 4-2 BRIM-F6 User’s Guide Single Mode Specifications Multimode Receiver (Signal Detect) Assert power: -33.0 dBm typical -31.0 dBm maximum Assert time: 10 µ sec typical 100 µ sec maximum Deassert power: -36.0 dBm typical -45.
Single Mode Specifications BRIM-F6 User’s Guide Page 4-3 Single Mode Receiver Optical wavelength: 1330 nm typical Optical input: (avg. sensitivity) -31.0 dBm minimum -14.0 dBm maximum Output rise time: 3 nsec maximum Output fall time: 3 nsec maximum Supply current: 115 mAmps maximum Single Mode Receiver (Signal Detect) Assert power: -33.
CHAPTER 4: SPECIFICATIONS Page 4-4 BRIM-F6 User’s Guide Unshielded T wisted Pair Specifications Unshielded Twisted Pair Transmitter Amplitude 1.080 Vpk maximum 0.920 Vpk minimum Rise time 2 nsec minimum 4 nsec maximum Fall time 2 nsec minimum 4 nsec maximum Rise/Fall variation 0.
Shielded Twisted Pair Transmitter Specifications BRIM-F6 User’s Guide Page 4-5 Shielded T wisted Pair T ransmitter Specifications 4.2 Cable Specifications The FDDI Physical Layer Medium Dependent (.
CHAPTER 4: SPECIFICATIONS Page 4-6 BRIM-F6 User’s Guide Multimode Fiber: Core diameter: 62.5 µ m nominal Cladding diameter: 128.0 µ m maximum 122.0 µ m minimum Cable attenuation: ≤ 2.5 dB/km typical Single Mode Fiber: Core diameter: 8.7 µ m +/- 0.
Twisted Pair Cable Length BRIM-F6 User’s Guide Page 4-7 Maximum total cable length: 100 km (62 miles) — dual ring 200 km (124 miles) — wrapped Maximum twisted pair cable length between adjacent nodes: 100 m (328.
CHAPTER 4: SPECIFICATIONS Page 4-8 BRIM-F6 User’s Guide 4.4 Environment Storage temperature: -40 ° C minimum 85 ° C maximum Operating temperature: 5 ° C minimum 40 ° C maximum Operating humidity: 5% to 95% non-condensing 4.5 Safety This unit meets the safety requirements of UL 1950, CSA C22.
BRIM-F6 User’s Guide Page A-1 APPENDIX A B ASIC FDDI NETW ORKS This Appendix covers basic Fiber Distrib uted Data Interf ace (FDDI) network concepts relating to FDDI network design and installation. ANSI Standard X3T9.5 provides greater detail on FDDI access methods.
APPENDIX A: BASIC FDDI NETWORKS Page A-2 BRIM-F6 User’s Guide When a station has a frame waiting to transmit, the station captures the token at the ne xt opportunity , transmits the data frame, and then reissues the token. (A T oken Holding T imer (THT) controls the maximum length of time that any station may retain the tok en.
Reliability BRIM-F6 User’s Guide Page A-3 Figure A-1. T ypical FDDI Physical Installation A.3 Reliability FDDI networks employ a ring topology and are inherently vulnerable to the frailties of each ring segment and f ailures of indi vidual stations.
APPENDIX A: BASIC FDDI NETWORKS Page A-4 BRIM-F6 User’s Guide Figure A-2. Wrapping a Broken Ring A.4 ANSI Standard X3T9.5 The X3T9.5 standard includes: Station Management (SMT), Media Access Control (MA C), Physical Layer Medium Dependent (PMD) standards and Physical Layer Protocol (PHY).
ANSI Standard X3T9.5 BRIM-F6 User’s Guide Page A-5 Figure A-3. FDDI Structure and the OSI Network Model The PMD standard establishes the physical characteristics of the network connection, including.
APPENDIX A: BASIC FDDI NETWORKS Page A-6 BRIM-F6 User’s Guide Other functions of the PHY include generation of a 125 Mhz transmit clock, synchronization of the recei ve clock with an upstream transmitter , encoding and decoding for media control symbols, and in some applications, buf fering for the incoming bit stream.
ANSI Standard X3T9.5 BRIM-F6 User’s Guide Page A-7 SMT (Station Management) manages the FDDI station. It controls internal FDDI station processes and protocol compliance and provides an interface for human interv ention.
APPENDIX A: BASIC FDDI NETWORKS Page A-8 BRIM-F6 User’s Guide Connection Management (CMT) controls physical layer insertion and remov al of stations. CMT has three main components: • Entity Coordination Management (ECM) controls bypass switches and coordinates trace (recov ery) functions.
FDDI Devices BRIM-F6 User’s Guide Page A-9 Figure A-6. Dual Homing T opology Concentrator 3 in Figure A-6 has redundant connections to the main ring through either concentrator 1 or 2. The FDDI connection rules only permit one acti ve connection, Port B.
APPENDIX A: BASIC FDDI NETWORKS Page A-10 BRIM-F6 User’s Guide Each physical ring connection requires: • one PMD • one PHY . A SAS consists of: • one SMT • one MA C • one PMD • one PHY . A D AS consists of: • two PMDs • two PHYs. Figure A-7.
FDDI Devices BRIM-F6 User’s Guide Page A-11 FDDI de vices physically attach to the ring using Fixed Shroud Duple x (FSD) media interface connectors. The X3T9.5 Physical Layer , PMD standard defines four connector types (see Figure A-7). These connectors provide proper trunk fiber alignment for each of the v alid configurations.
APPENDIX A: BASIC FDDI NETWORKS Page A-12 BRIM-F6 User’s Guide Optical bypass switches, concentrators, and bridges exist throughout FDDI networks. These devices allo w creation of ring topologies that meet the specific needs of dif ferent network applications.
FDDI Devices BRIM-F6 User’s Guide Page A-13 Figure A-9. Optical Bypass Switch A concentrator is a hub . It pro vides connections to the dual ring for single attached stations and controls their access to the ring.
APPENDIX A: BASIC FDDI NETWORKS Page A-14 BRIM-F6 User’s Guide Figure A-10. FDDI Devices A.7 Design Considerations For FDDI Networks The main v ariables of interest to the FDDI network designer include ring length, dri ve distance (distance between nodes), and the maximum number of stations.
Design Considerations For FDDI Networks BRIM-F6 User’s Guide Page A-15 T o translate fiber path to ring length, remember that FDDI networks contain two counter -rotating rings. Under normal conditions (no failed segment), the ring length remains the same as the fiber path length.
APPENDIX A: BASIC FDDI NETWORKS Page A-16 BRIM-F6 User’s Guide The attenuation of the typical multimode fiber optic cable used in FDDI networks is 2.5 dB/km or 5 dB for the 2 km maximum node separation. When installing optical bypass switches, each switch could add 2.
Design Considerations For FDDI Networks BRIM-F6 User’s Guide Page A-17 Figure A-11. Physical Device Connections DAS 2 DAC 2 SAC SAS SAS SAS SAS SAS 16 PHYSICAL CONNECTIONS 2 2 2 1 + 1 2 2 2 2 BRIM-F.
デバイスCabletron Systems BRIM-F6の購入後に(又は購入する前であっても)重要なポイントは、説明書をよく読むことです。その単純な理由はいくつかあります:
Cabletron Systems BRIM-F6をまだ購入していないなら、この製品の基本情報を理解する良い機会です。まずは上にある説明書の最初のページをご覧ください。そこにはCabletron Systems BRIM-F6の技術情報の概要が記載されているはずです。デバイスがあなたのニーズを満たすかどうかは、ここで確認しましょう。Cabletron Systems BRIM-F6の取扱説明書の次のページをよく読むことにより、製品の全機能やその取り扱いに関する情報を知ることができます。Cabletron Systems BRIM-F6で得られた情報は、きっとあなたの購入の決断を手助けしてくれることでしょう。
Cabletron Systems BRIM-F6を既にお持ちだが、まだ読んでいない場合は、上記の理由によりそれを行うべきです。そうすることにより機能を適切に使用しているか、又はCabletron Systems BRIM-F6の不適切な取り扱いによりその寿命を短くする危険を犯していないかどうかを知ることができます。
ですが、ユーザガイドが果たす重要な役割の一つは、Cabletron Systems BRIM-F6に関する問題の解決を支援することです。そこにはほとんどの場合、トラブルシューティング、すなわちCabletron Systems BRIM-F6デバイスで最もよく起こりうる故障・不良とそれらの対処法についてのアドバイスを見つけることができるはずです。たとえ問題を解決できなかった場合でも、説明書にはカスタマー・サービスセンター又は最寄りのサービスセンターへの問い合わせ先等、次の対処法についての指示があるはずです。