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Front cover; Handbook of Fiber Optic Data Communication; Copyright page; Table of contents; Preface to the Third Edition; Part I: Technology Building Blocks; Chapter 1: Computers Full of Light: A Short History of Optical Data Communications; 1.1 THE OPTICAL TELEGRAPH; 1.2 LASERS REVIVE OPTICAL COMMUNICATIONS; Chapter 2: Optical Fiber, Cables, and Connectors; 2.1. LIGHT PROPAGATION; 2.2. OPTICAL FIBER CHARACTERIZATION; REFERENCES; Chapter 3: Small Form Factor Fiber-Optic Interfaces; 3.1. INTRODUCTION; 3.2. MT-RJ CONNECTOR; 3.3. SC-DC; 3.4. VF-45; 3.5. LC CONNECTOR
3.6. OTHER TYPES OF SFF CONNECTORS3.7. SFF, SFP, AND SFP + TRANSCEIVERS; 3.8. COMPARISON OF SFF FORM FACTORS; REFERENCES; Chapter 4: Specialty Fiber-Optic Cables; 4.1. INTRODUCTION: CONVENTIONAL OPTICAL FIBER; 4.2. NEXT-GENERATION OM3 MULTIMODE FIBER; 4.3. OPTICAL MODE CONDITIONERS; 4.4. ATTENUATED FIBER CABLES FOR WDM AND CABLE TV; 4.5. POLARIZATION CONTROLLING FIBERS; 4.6. DISPERSION CONTROLLING FIBERS; 4.7. PHOTOSENSITIVE FIBERS; 4.8. ACTIVE OPTICAL CABLES; REFERENCES; Case Study: Multimode Fiber Reuse for High-Speed Storage Area Networks; REFERENCES
Chapter 5: Optical Sources: Light-Emitting Diodes and Laser Technology5.1. INTRODUCTION; 5.2. TECHNOLOGY FUNDAMENTALS; 5.3. DEVICE STRUCTURE-LED; 5.4. DEVICE STRUCTURE-LASERS; REFERENCES; Chapter 6: Detectors for Fiber Optics; 6.1. DETECTOR TERMINOLOGY AND CHARACTERISTICS; 6.2. PIN PHOTODIODE; 6.3. OTHER DETECTORS; 6.4. NOISE; ACKNOWLEDGMENT; REFERENCES; Chapter 7: Receiver Logic and Drive Circuitry; 7.1. SYSTEM OVERVIEW; 7.2. ELECTRICAL INTERFACE; 7.3. OPTICAL INTERFACE; 7.4. LINEAR AND LIMITING RECEIVERS; REFERENCES; Chapter 8: Optical Subassemblies; 8.1. FUNCTION OF THE OPTICAL SUBASSEMBLY
8.2. BASIC PROPERTIES OF THE TRANSMITTER OSA8.3. BASIC PROPERTIES OF THE RECEIVER OSA; 8.4. COUPLING RADIATION FROM A LASER DIODE INTO A FIBER; 8.5. COUPLING RADIATION FROM A FIBER INTO A PHOTODETECTOR; 8.6. PACKAGING OF OPTICAL SUBASSEMBLIES; 8.7. OPTICAL SUBASSEMBLIES FOR PARALLEL OPTICAL LINKS; 8.8. OUTLOOK; ACKNOWLEDGMENTS; REFERENCES; Chapter 9: Alignment Metrology and Manufacturing; 9.1. INTRODUCTION; 9.2. INTERFACE DEFINITION AND IMPORTANCE; 9.3. LIGHT COUPLING; 9.4. ELEMENTS OF COUPLED POWER; 9.5. ALIGNMENT TECHNIQUES; 9.6. CONCLUSION; REFERENCES
Chapter 10: Packaging Assembly Techniques10.1. PACKAGING ASSEMBLY-OVERVIEW; 10.2. FIRST-LEVEL INTERCONNECTS; 10.3. PACKAGE TYPES; 10.4. PACKAGE TO BOARD ATTACH; 10.5. OPTICAL INTERCONNECT; REFERENCES; Part II: Links and Network Design; Chapter 11: Fiber-Optic Transceivers; 11.1. INTRODUCTION; 11.2. TECHNICAL DESCRIPTION OF FIBER-OPTIC TRANSCEIVERS; 11.3. THE OPTICAL INTERFACE; 11.4. NOISE TESTING OF TRANSCEIVERS; 11.5. PACKAGING OF TRANSCEIVERS (TRX); 11.6. SERIES PRODUCTION OF TRANSCEIVERS; 11.7. TRANSCEIVERS TODAY AND TOMORROW; 11.8. PARALLEL OPTICAL LINKS; ACKNOWLEDGMENTS; REFERENCES
Chapter 12: Optical Link Budgets and Design Rules
The third edition of this Handbook provides a comprehensive, easy to use guide to the field of optical fiber data communications. Written by experts in the industry from major companies such as IBM, Cisco and Nortel, the Handbook is a key reference for optical fiber technology, networking, protocols, applications, manufacturing, and future directions. It includes chapters on all the major industry standards, written by the same experts who developed them.This edition contains new material on transceiver form factors (QSFP, SFP +, XFP, X2), manufacturing standards, including JEDEC and R