Screen LibraryOptical fibres /
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| Main Authors: | |
|---|---|
| Corporate Authors: | |
| Group Author: | ; |
| Published: |
Pergamon InfoLine,
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| Publisher Address: | Oxford [Oxfordshire] ; New York : |
| Publication Dates: | 1986. |
| Literature type: | eBook |
| Language: | English |
| Edition: | First edition. |
| Series: |
EPO applied technology series ; v. 5 |
| Subjects: | |
| Online Access: |
http://www.sciencedirect.com/science/book/9780080305776 |
| Carrier Form: | 1 online resource (xiv, 635 pages) : illustrations. |
| Bibliography: | Includes bibliographical references and index. |
| ISBN: |
9781483190662 1483190668 |
| Index Number: | TK5103 |
| CLC: | TN929.1 |
| Contents: |
Front Cover; Optical Fibres; Copyright Page; Foreword; NOTE ON CITED PATENT DOCUMENTS; Table of Contents; PART ONE: MAKING OF OPTICAL FIBRES; CHAPTER I. Manufacture of Optical Fibres; INTRODUCTION; SECTION A : PRODUCTION OF PREFORMS; SECTION B : DRAWING OF OPTICAL FIBRES; SECTION C : POST-TREATMENT OF OPTICAL FIBRES; CHAPTER II. Materials Used in the Production of Optical Fibres; INTRODUCTION; SECTION A : (DOPED) SILICA FIBRES; SECTION B : OXIDE GLASSES NOT CONTAINING SILICA; SECTION C : MULTICOMPONENT GLASS; SECTION D : N0N-0XIDE GLASS; PART TWO: CONNECTORS, TERMINALS, BRANCHES CHAPTER I. The Background to Connector Design1. INTRODUCTION; 2. CRITERIA AND PROBLEMS; 3. KINDS OF ENERGY LOSS; 4. KINDS OF CONNECTOR : SPLICES, DEMOUNTABLE CONNECTORS; REFERENCES TO CHAPTER I; PATENT REFERENCE; CHAPTER II. Fibre End Preparation; 1. REMOVING PROTECTIVE LAYERS; 2. MECHANICAL STRIPPING; 3. CHEMICAL STRIPPING OR NON-MECHANICAL STRIPPING; 4. CLEAVING OR CUTTING AN OPTICAL FIBRE; REFERENCES TO CHAPTER II; PATENT REFERENCES; CHAPTER III. Splices (Permanent Connections); 1. FUSION SPLICES; 2. ALIGNMENT OF FIBRE ENDS BEFORE SPLICING; 3. REINFORCEMENT OF SPLICE JOINTS 4. MECHANICAL SPLICES5. SPLICE BOXES AND SURPLUS FIBRE STORAGE; REFERENCES TO CHAPTER III; PATENT REFERENCES; CHAPTER IV. Ferrule Type Demountable Connectors; 1. FERRULE FITTING PROCESSES; FERRULE DETAILS; 2. CONNECTING A PAIR OF FERRULES; 3. CONNECTING A PLURALITY OF PAIRS OF FERRULES; REFERENCES TO CHAPTER IV; PATENT REFERENCES; CHAPTER V. Connectors Using Guide Surfaces; 1. ALIGNMENT BY GROOVES; 2. ALIGNMENT BY RODS; 3. ALIGNMENT BY BALLS; 4. ALIGNMENT BY PRECISION BORE OR TUBE; PATENT REFERENCES TO CHAPTER V; CHAPTER VI. Expanded Beam Connectors; 1. EXPANDED BEAM CONNECTORS PATENT REFERENCES TO CHAPTER VICHAPTER VII. Simple Multiport Couplers; 1. INTRODUCTION; 2. ""T"" COUPLERS AND DUPLEX COUPLERS; 3. ""Y"" COUPLERS; 4. THREE OR FOUR PORT COUPLERS USING REFLECTIVE SURFACES; 5. DIRECTIONAL COUPLERS USING LATERAL COUPLING; 6. COUPLING LIGHT THROUGH AFIBRE BEND OR LOOP; 7. STAR COUPLERS; REFERENCES TO CHAPTER VII; PATENT REFERENCES; CHAPTER VIII. Multiplexers, Demultiplexers; 1. INTRODUCTION; 2. USING PRISMS; 3. USING WAVELENGTH SELECTIVE FILTERS; 4. USING DIFFRACTION GRATINGS; PATENT REFERENCES TO CHAPTER VIII; PART THREE: OPTICAL FIBRE TRANSMISSION CHAPTER I. Optical Fibre Transmission1. FIBRE PROPAGATION; 2. MODULATION AND MULTIPLEXING; 3. TRANSMISSION SYSTEMS; CHAPTER II. Transmitters for Optical Fibres; INTRODUCTION; 1. THE LED AS AN OPTICAL SOURCE; 2. THE LASER AS AN OPTICAL SOURCE; 3. A GENERAL COMPARISON BETWEEN LED'S AND LASERS; 4. THE MULTIPLEXING DIODE; 5. THE DRIVER; 6. OPTICAL TRANSMITTER LINEARIZATION; 7. OPTICAL TRANSMITTER TEMPERATURE STABILIZATION; 8. REDUCING SOME LASER IMPAIRMENTS; 9. IMPROVING THE RELIABILITY OF THE TRANSMITTER; 10. OPTICAL TAPS AND FEEDBACK SIGNALS; CHAPTER III. Optical Fibre Receivers; INTRODUCTION |