Verfügbarkeit: Fiber-optic communications technology

Fiber-optic communications technology:

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Bibliographische Detailangaben
Hauptverfasser:	Mynbaev, Djafar K. (VerfasserIn), Scheiner, Lowell L. (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Upper Saddle River, NJ [u.a.] Prentice Hall 2001
Schlagworte:	Fibres optiques Glasvezels Telecommunicatie Télécommunications optiques Fiber optics Optical communications Faseroptik Optische Nachrichtentechnik
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XVIII, 750 S. Ill., graph. Darst.
ISBN:	0139620699

Internformat

MARC


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Datensatz im Suchindex

_version_	1804128734075158528
adam_text	FIBER-OPTIC COMMUNICATIONS TECHNOLOGY DJAFAR K. MYNBAEV NEW YORK CITY TECHNICAL COLLEGE OF THE CITY UNIVERSITY OF NEW YORK LOWELL L. SCHEINER POLYTECHNIC UNIVERSITY PRENTICE HALL UPPER SADDLE RIVER, NEW JERSEY COLUMBUS, OHIO CONTENTS CHAPTER 1 INTRODUCTION TO TELECOMMUNICATIONS AND FIBER OPTICS 1 1.1 TELECOMMUNICATIONS 1 WHAT IT IS 1 TELECOMMUNICATIONS: POINT-TO-POINT SYSTEMS AND NETWORKS 2 INFORMATION-CARRYING CAPACITY 3 THE NEEDFOR FIBER-OPTIC COMMUNICATIONS SYSTEMS 5 1.2 A FIBER-OPTIC COMMUNICATIONS SYSTEM: THE BASIC BLOCKS 6 BASIC BLOCK DIAGRAM 7 THE ROLE OF FIBER-OPTIC COMMUNICATIONS TECHNOLOGY 13 1.3 A LOOK BACK AND A GLANCE AHEAD 13 HISTORICAL NOTES 13 THE INDUSTRY TODAY AND FUTURE TRENDS 19 DEVELOPMENTS TO WATCH 25 PROBLEMS 26 REFERENCES 27 CHAPTER 2 PHYSICS OF LIGHT: A BRIEF OVERVIEW 28 2.1 ELECTROMAGNETIC WAVES 28 2.2 BEAMS (RAYS) 30 REFRACTIVE INDEX 30 2.3 A STREAM OF PHOTONS 36 AN ENERGY-LEVEL DIAGRAM 36 A PHOTON 36 RADIATION AND ABSORPTION 37 XI CONTENTS SUMMARY 40 PROBLEMS 41 REFERENCES 41 CHAPTER 3 OPTICAL FIBERSBASICS 42 3.1 HOW OPTICAL FIBERS CONDUCT LIGHT 42 STEP-INDEX FIBER: THE BASIC STRUCTURE 42 LAUNCHING THE LIGHT: UNDERSTANDING NUMERICAL APERTURE 46 3.2 ATTENUATION 49 BENDING LOSSES 50 SCATTERING 52 ABSORPTION 53 CALCULATIONS OF TOTAL ATTENUATION 54 MEASURING ATTENUATION 56 3.3 INTERMODAL AND CHROMATIC DISPERSION 57 MODES 57 MODAL (INTERMODAL) DISPERSION 60 THE FIRST SOLUTION TO THE MODAL-DISPERSION PROBLEM GRADED-INDEX FIBER A BETTER SOLUTION TO THE MODAL-DISPERSION PROBLEM * SINGLEMODE FIBER 65 CHROMATIC DISPERSION 66 3.4 BIT RATE AND BANDWIDTH 69 BIT RATE AND BANDWIDTH DEFINED 69 DISPERSION AND BIT RATE 70 3.5 READING A DATA SHEET 71 WHERE TO BEGIN 72 GENERAL SECTION 72 OPTICAL CHARACTERISTICS SECTION 72 GEOMETRIE CHARACTERISTICS SECTION 75 ENVIRONMENTAL SPECIFICATIONS SECTION 76 MECHANICAL SPECIFICATIONS SECTION 77 OTHER CHARACTERISTICS 77 CONCLUSION 77 SUMMARY 79 PROBLEMS 80 REFERENCES 82 CHAPTER 4 OPTICAL FIBERSA DEEPER LOOK 83 4.1 MAXWELL S EQUATIONS 83 SET OF MAXWELL S EQUATIONS 83 INTERPRETATION OF MAXWELL S EQUATIONS 85 WAVE EQUATIONS 87 SOLVING WAVE EQUATIONS 89 4.2 PROPAGATION OF EM WAVES 90 WAVE EQUATIONS FOR A TIME-HARMONIC EM FIELD 90 EM WAVES: PROPAGATION IN A LOSSY MEDIUM 91 EM WAVES: PROPAGATION IN WAVEGUIDES 93 CONTENTS 4.3 MORE ABOUT TOTAL INTERNAL REFLECTION 97 BOUNDARY CONDITIONS 97 REFLECTANCES 99 4.4 MORE ABOUT MODES 101 SOME WORDS ABOUT MODE THEORY AND IMPORTANT RESULTS 101 LINEAR-POLARIZED (LP) MODES 102 THREE TYPES OF MODES: GUIDED, RADIATION, AND LEAKY 107 PHASE AND GROUP VELOCITIES 107 POWER CONFINEMENT 109 CUTOJFWAVELENGTH (FREQUENCY) 110 COMPUTER SIMULATION 114 4.5 ATTENUATION IN MULTIMODE FIBERS 114 GENERAL APPROACH 115 INTRINSIC LOSSES 116 EXTRINSIC LOSSES ABSORPTION 117 EXTRINSIC LOSSES * BENDING LOSSES 118 MODES, ATTENUATION, AND ATTENUATION CONSTANT 120 4.6 DISPERSION IN MULTIMODE FIBERS 122 GENERAL COMMENTS 122 INTERMODAL (MODAL) DISPERSION * A CLOSER LOOK 125 CHROMATIC DISPERSION * MATERIAL DISPERSION 126 WAVEGUIDE DISPERSION 132 BANDWIDTH OF MULTIMODE FIBERS 132 SUMMARY 135 PROBLEMS 136 REFERENCES 137 CHAPTER 5 SINGLEMODE FIBERSBASICS 139 5.1 HOW A SINGLEMODE FIBER WORKS 139 THE PRINCIPLE OFACTION 139 GAUSSIAN BEAM 140 GORE, CLADDING, AND MODE-FIELD DIAMETER (MFD) 142 CUTOJFWAVELENGTH 143 5.2 ATTENUATION 144 BENDING LOSSES 144 SCATTERING 146 ABSORPTION 146 5.3 DISPERSION AND BANDWIDTH 147 CHROMATIC DISPERSION 147 CONVENTIONAL, DISPERSION-SHIFTED, AND DISPERSION-FLATTENED FIBERS POLARIZATION-MODE DISPERSION (PMD) 155 BANDWIDTH (BIT RATE) OF A SINGLEMODE FIBER 158 5.4 READING A DATA SHEET 160 GENERAL SECTION 160 SPECIFICATIONS SECTION 160 SUMMARY 165 PROBLEMS 166 REFERENCES 167 CONTENTS CHAPTER 6 SINGLEMODE FIBERSA DEEPER LOOK 168 6.1 MODEFIELD 168 GAUSSIAN MODEL AND REAL MODE-FIELD DISTRIBUTION 168 CUTOFF WAVELENGTH AND V-NUMBER 171 6.2 MORE ABOUT ATTENUATION IN A SINGLEMODE FIBER 172 INTRINSIC AND EXTRINSIC LOSSES 173 6.3 COPING WITH DISPERSION IN A SINGLEMODE FIBER 178 CHROMATIC DISPERSION 178 COPING WITH CHROMATIC DISPERSION 180 COMPENSATION FOR CHROMATIC DISPERSION WITH DISPERSION-COMPENSATING FIBER 181 DISPERSION-COMPENSATING GRAETINGS (DCG) 185 DISPERSION COMPENSATION: THE SYSTEM VIEWPOINT 187 COPING WITH PMD 188 POLARIZATION-DEPENDENT LOSS (PDL) 194 BRIEF SUMMARY 195 6.4 NONLINEAR EFFECTS IN A SINGLEMODE FIBER 195 NONLINEAR REFRACTIVE EFFECTS 195 FOUR-WAVE MIXING (FWM) 200 STIMULATED SCATTERING 202 6.5 TRENDS IN FIBER DESIGN 204 SUMMARY 206 PROBLEMS 207 REFERENCES 208 CHAPTER 7 FABRICATION, CABLING, AND INSTALLATION 210 7.1 FABRICATION 210 TWO MAJOR STAGES 211 VAPOR-PHASE DEPOSITION METHODS 213 COATING 218 7.2 FIBER-OPTIC CABLES 220 CABLES 220 READING DATA SHEETS 242 7.3 INSTALLATIONPLACING THE CABLE 244 CLASSIFICATION 244 INSTALLATION PROCEDURE 244 SUMMARY 246 PROBLEMS 246 REFERENCES 247 CHAPTER 8 FIBER CABLE CONNECTORIZATION AND TESTING 248 8.1 SPLICING 248 CONNECTION LOSSES 248 SPLICING PROCEDURE 252 CONCLUSION 257 8.2 CONNECTORS 257 CONNECTORS A BASIC STRUCTURE 258 MAJOR CHARACTERISTICS 259 CONTENTS XV CONNECTOR STYLES * YESTERDAY, TODAY, AND TOMORROW 261 STANDARDS 265 READING DATA SHEETS 266 TERMINATION PROCESS 266 RECEPTACLES, ADAPTERS, AND SPECIAL CONNECTORS 267 TESTS AND MEASUREMENTS 267 8.3 INSTALLATION HARDWARE 270 WHY INSTALLATION HARDWARE 270 HARDWARE SYSTEMS AND COMPONENTS 272 CONCLUSION 283 8.4 DESIGN OF LOCAL-AREA-NETWORK INSTALLATION 283 LINK CONSIDERATION * POWER BUDGET AND RISE-TIME BUDGET (BANDWIDTH) 284 LOCALAREA NETWORK * GENERAL CONSIDERATIONS 288 CABLING OF LOCAL AREA NETWORKS 291 BASIC RECOMMENDATIONS 293 PLASTIC (POLYMER) OPTICAL FIBER (POF) 295 8.5 TESTING, TROUBLESHOOTING, AND MEASUREMENT 296 TEST EQUIPMENT 296 WHAT WE NEED TO TEST 304 TESTING NETWORK ATTENUATION 304 TESTING NETWORK BANDWIDTH 307 CONNECTOR AND SPLICE TESTING 307 TROUBLESHOOTING 310 SUMMARY 310 PROBLEMS 311 REFERENCES 312 CHAPTER 9 LIGHT SOURCES AND TRANSMITTERSBASICS 313 9.1 LIGHT-EMITTING DIODES (LEDS) 313 LIGHT RADIATION BY A SEMICONDUCTOR 314 GENERAL CONSIDERATIONS 318 READING DATA SHEETS CHARACTERISTICS OFLEDS 324 9.2 LASER DIODES (LDS) 332 PRINCIPLE OFACTION 333 SUPERLUMINESCENT DIODES (SLDS) 347 9.3 READING DATA SHEETSTHE CHARACTERISTICS OF LASER DIODES 347 BROAD-AREA LASER DIODES 347 READING THE DATA SHEET OF A DFB LASER DIODE 354 SUMMARY 359 PROBLEMS 360 REFERENCES 364 CHAPTER 10 LIGHT SOURCES AND TRANSMITTERSA DEEPER LOOK 365 10.1 MORE ABOUT SEMICONDUCTORS 365 INTRINSIC SEMICONDUCTORS: FERMI ENERGY AND NUMBER OF CHARGE CARRIERS 365 DOPED SEMICONDUCTORS 368 P-N JUNCTION 369 BIASING 371 A CLOSER LOOK AT THE BANDGAPS 372 XVI CONTENTS 10.2 EFFICIENCY OF A LASER DIODE 375 INPUT-OUTPUT RELATIONSHIP 375 THREE TYPES OF EFFICIENCY 377 MORE ABOUT THE EFFICIENCY OF LASER-DIODE OPERATION 381 10.3 CHARACTERISTICS OF LASER DIODES 386 THRESHOLD AND OPERATING CURRENTS 386 RADIATING WAVELENGTH AND SPECTRAL WIDTH 388 RADIATION PATTERNS 390 LASER MODULATION 393 CHIRP 398 NOISE 399 10.4 TRANSMITTER MODULES 400 FUNCTIONAL BLOCK DIAGRAM AND TYPICAL CIRCUITS OF A TRANSMITTER 401 PACKAGING AND RELIABILITY 410 READING THE TRANSMITTER S DATA SHEET 413 EXTERNAL MODULATORS 416 SUMMARY 428 PROBLEMS 428 REFERENCES 433 CHAPTER 11 RECEIVERS 434 11.1 PHOTODIODES 434 P-N PHOTODIODES: HOW THEY WORK 434 POWER RELATIONSHIP 437 BANDWIDTH 442 P-I-N PHOTODIODES 445 AVALANCHE PHOTODIODES (APDS) 447 MSM PHOTODETECTORS 450 11.2 READING THE DATA SHEETS OF PHOTODIODES 451 DATA SHEET OF A P-I-N PHOTODIODE 451 DATA SHEET OFAN AVALANCHE PHOTODIODE 458 SILICON PHOTODIODES 459 CONCLUSION 459 11.3 MORE ABOUT PHOTODETECTORS 460 NOISE SOURCES IN A PHOTODIODE 460 SIGNAL-TO-NOISE RATIO AND NOISE-EQUIVALENT POWER 465 SENSITIVITY AND QUANTUM LIMIT 470 11.4 RECEIVER UNITS 476 FUNCTIONAL BLOCK DIAGRAM AND TYPICAL CIRCUITS OFA RECEIVER 476 DECISION-CIRCUIT DESIGN 482 READING A RECEIVER S DATA SHEET 487 OPTO-ELECTRONIC IC (OEIC) 490 SUMMARY 491 PROBLEMS 493 REFERENCES 497 CHAPTER 12 COMPONENTS OF FIBER-OPTIC NETWORKS 499 12.1 FIBER-OPTIC NETWORKS: AN OVERVIEW 499 POINT-TO-POINT LINKS 499 NETWORKS 501 CONTENTS XVII 12.2 TRANSCEIVERS FOR FIBER-OPTIC NETWORKS 511 TRANSMITTERS 511 RECEIVERS 520 12.3 SEMICONDUCTOR OPTICAL AMPLIFIERS 523 OPTICAL AMPLIFIERS: GENERAL CONSIDERATIONS 524 PRINCIPLE OF OPERATION OFA SEMICONDUCTOR OPTICAL AMPLIFIER (SOA) 526 GAIN OFAN SOA 526 BANDWIDTH OFAN SOA 532 CROSSTALK 534 POLARIZATION-DEPENDENT GAIN 536 NOISE 536 READING THE DATA SHEET OFAN SOA 540 SOA APPLICATIONS 541 SOAS: ADVANTAGES AND DRAWBACKS 541 12.4 ERBIUM-DOPED FIBER AMPLIFIERS (EDFAS) 542 HOW AMPLIFICATION OCCURS 542 C-BAND AND L-BAND 545 GAIN AND NOISE IN AN ERBIUM-DOPED FIBER 545 COMPONENTS OFAN EDFA MODULE 551 READING AN EDFA DATA SHEET 569 OTHER TYPES OF OPTICAL FIBER AMPLIFIERS 577 SUMMARY 579 PROBLEMS 581 REFERENCES 584 CHAPTER 13 PASSIVE COMPONENTS, SWITCHES, AND FUNCTIONAL MODULES OF FIBER-OPTIC NETWORKS 586 13.1 COUPLERS/SPLITTERS 586 FUSED BICONICAL TAPER (FBT) COUPLERS * THEIR PRINCIPLE OF OPERATION 586 READING A DATA SHEET 588 FBT COUPLERS: HOW TO MAKE A WDM COUPLER 597 PHASE MISMATCH 601 13.2 WAVELENGTH-DIVISION MULTIPLEXERS AND DEMULTIPLEXERS 603 WDM MUX/DEMUX AND COUPLERS 604 WDM MUXS AND DEMUXS: HOW THEY WORK 606 WDM MUX/DEMUX APPLICATIONS~ADD/DROP AND ROUTERS 614 13.3 FILTERS 616 OPTICAL FILTERS: WHAT THEY ARE 616 FIXED FILTERS 619 TUNABLE FILTERS 622 13.4 ISOLATORS, CIRCULATORS, AND ATTENUATORS 627 ISOLATORS 627 CIRCULATORS 633 ATTENUATORS 634 13.5 OPTICAL SWITCHES AND FUNCTIONAL MODULES 637 OPTICAL SWITCHES 637 WAVELENGTH CONVERTERS 642 FUNCTIONAL MODULES 643 CONCLUSION 646 SUMMARY 647 PROBLEMS 648 REFERENCES 649 XVIII CONTENTS CHAPTER 14 AN INTRODUCTION TO FIBER-OPTIC NETWORKS 651 14.1 THE WHAT AND HOW OF DATA TRANSMISSION 652 WHAT TO TRANSMIT: VOICE, VIDEO, AND DATA 652 TELEPHONE NETWORKS 652 COMPUTER NETWORKS 662 CABLETV 669 14.2 ELEMENTS OF THE ARCHITECTURE OF FIBER-OPTIC NETWORKS 673 NETWORKS, PROTOCOLS, AND SERVICES 673 OPEN SYSTEMS INTERCONNECTION (OSI) REFERENCE MODEL 674 SONET NETWORKS AND LAYERS 680 ATM NETWORKS AND LAYERS 683 LAYERED ARCHITECTURE OF FIBER-OPTIC NETWORKS 685 OPTICAL LAYER 687 14.3 NETWORK MANAGEMENT AND THE FUTURE OF FIBER-OPTIC NETWORKS 691 THE FUNCTIONS OF NETWORK MANAGEMENT 691 HOW NETWORK MANAGEMENT IS IMPLEMENTED 692 FIBER-OPTIC-NETWORK SURVIVABILITY (PROTECTION AND RESTORATION) 694 CONCLUSION: THE FUTURE OF FIBER-OPTIC NETWORKS 700 SUMMARY 703 PROBLEMS 707 REFERENCES 709 CHAPTER 15 CONCLUSION 712 15.1 BANDWIDTH: THE INDUSTRY S HOLY GRAIL 712 15.2 DEPLOYMENT OF NEW FIBER-OPTIC LINES 713 15.3 OPTICAL FIBER: PROBLEMS GALORE, SOLUTIONS SOUGHT 714 15.4 FIBER-OPTIC COMPONENTS 715 15.5 WAVELENGTH-DIVISION MULTIPLEXING: A DIRE NEED MET 717 15.6 NETWORKS 717 15.7 WIRELESS COMMUNICATIONS AND FIBER-OPTIC NETWORKS 719 SUMMING UP 719 REFERENCES 719 APPENDIX A LIST OF CONSTANTS, POWERS OFTEN, INTERNATIONAL SYSTEM OF UNITS, DECIBEL UNITS, AND THE GREEK ALPHABET 721 APPENDIX B ACRONYMS, ABBREVIATIONS, SYMBOLS, AND UNITS USED IN THIS BOOK 724 APPENDIX C A SELECTED BIBLIOGRAPHY 731 APPENDIX D PRODUCTS, SERVICES, AND STANDARDS 740 INDEX 743
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spelling	Mynbaev, Djafar K. Verfasser aut Fiber-optic communications technology Djafar K. Mynbaev ; Lowell L. Scheiner Fiber optic communications technology Upper Saddle River, NJ [u.a.] Prentice Hall 2001 XVIII, 750 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Fibres optiques ram Glasvezels gtt Telecommunicatie gtt Télécommunications optiques ram Fiber optics Optical communications Faseroptik (DE-588)4016498-6 gnd rswk-swf Optische Nachrichtentechnik (DE-588)4035624-3 gnd rswk-swf Optische Nachrichtentechnik (DE-588)4035624-3 s DE-604 Faseroptik (DE-588)4016498-6 s Scheiner, Lowell L. Verfasser aut GBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=009505859&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Mynbaev, Djafar K. Scheiner, Lowell L. Fiber-optic communications technology Fibres optiques ram Glasvezels gtt Telecommunicatie gtt Télécommunications optiques ram Fiber optics Optical communications Faseroptik (DE-588)4016498-6 gnd Optische Nachrichtentechnik (DE-588)4035624-3 gnd
subject_GND	(DE-588)4016498-6 (DE-588)4035624-3
title	Fiber-optic communications technology
title_alt	Fiber optic communications technology
title_auth	Fiber-optic communications technology
title_exact_search	Fiber-optic communications technology
title_full	Fiber-optic communications technology Djafar K. Mynbaev ; Lowell L. Scheiner
title_fullStr	Fiber-optic communications technology Djafar K. Mynbaev ; Lowell L. Scheiner
title_full_unstemmed	Fiber-optic communications technology Djafar K. Mynbaev ; Lowell L. Scheiner
title_short	Fiber-optic communications technology
title_sort	fiber optic communications technology
topic	Fibres optiques ram Glasvezels gtt Telecommunicatie gtt Télécommunications optiques ram Fiber optics Optical communications Faseroptik (DE-588)4016498-6 gnd Optische Nachrichtentechnik (DE-588)4035624-3 gnd
topic_facet	Fibres optiques Glasvezels Telecommunicatie Télécommunications optiques Fiber optics Optical communications Faseroptik Optische Nachrichtentechnik
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=009505859&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT mynbaevdjafark fiberopticcommunicationstechnology AT scheinerlowelll fiberopticcommunicationstechnology

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