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Optical communication receiver design
~
Alexander, Stephen B.
Optical communication receiver design
紀錄類型:
書目-語言資料,印刷品 : Monograph/item
正題名/作者:
Optical communication receiver design/ Stephen B. Alexander.
作者:
Alexander, Stephen B.
出版者:
Bellingham, Wash. (1000 20th St. Bellingham WA 98225-6705 USA) :SPIE, : 1997.,
面頁冊數:
1 online resource (xix, 314 p. : ill.) :digital file. :
附註:
"SPIE digital library."
標題:
Optical communications - Equipment and supplies. -
電子資源:
http://dx.doi.org/10.1117/3.219402
ISBN:
9780819480477 (electronic)
Optical communication receiver design
Alexander, Stephen B.
Optical communication receiver design
[electronic resource] /Stephen B. Alexander. - Bellingham, Wash. (1000 20th St. Bellingham WA 98225-6705 USA) :SPIE,1997. - 1 online resource (xix, 314 p. : ill.) :digital file. - SPIE tutorial texts in optical engineering ;v. TT 22. - SPIE tutorial texts ;TT06..
"SPIE digital library."
Includes bibliographical references and index.
Preface -- Acknowledgments -- Glossary -- 1. Optical communications -- 1.1. Introduction -- 1.2. Fiber-optic systems. 1.2.1. Optical fiber; 1.2.2. Fiber coupling considerations -- 1.3. Free-space systems -- 1.3.1. Choice of laser technology -- 1.3.2. Spatial pointing and tracking considerations -- 1.4. References -- 2. System performance -- 2.1. Analog and digital optical communications -- 2.2. The link budget. 2.2.1. Link budget for the fiber-optic channel; 2.2.2. Link budget for the free-space channel -- 2.3. Specifying an analog receiver's performance -- 2.4. Specifying a digital receiver's performance -- 2.5. The receiver sensitivity budget -- 2.6. References.
Restricted to subscribers or individual electronic text purchasers.
This Tutorial Text provides an overview of design principles for receivers used in optical communication systems, intended for practicing engineers. The author reviews technologies used to construct optical links and illustrates the flow of system performance specifications into receiver requirements. Photodetector fundamentals, associated statistics, characteristics and performance issues are presented, together with a tutorial on noise analysis and the specific techniques needed to model optical receivers.
Mode of access: World Wide Web.
ISBN: 9780819480477 (electronic)
Standard No.: 10.1117/3.219402doiSubjects--Topical Terms:
563471
Optical communications
--Equipment and supplies.
LC Class. No.: TK5103.59 / .A53 1997
Dewey Class. No.: 621.382/7
Optical communication receiver design
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Preface -- Acknowledgments -- Glossary -- 1. Optical communications -- 1.1. Introduction -- 1.2. Fiber-optic systems. 1.2.1. Optical fiber; 1.2.2. Fiber coupling considerations -- 1.3. Free-space systems -- 1.3.1. Choice of laser technology -- 1.3.2. Spatial pointing and tracking considerations -- 1.4. References -- 2. System performance -- 2.1. Analog and digital optical communications -- 2.2. The link budget. 2.2.1. Link budget for the fiber-optic channel; 2.2.2. Link budget for the free-space channel -- 2.3. Specifying an analog receiver's performance -- 2.4. Specifying a digital receiver's performance -- 2.5. The receiver sensitivity budget -- 2.6. References.
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3. Photodetection -- 3.1. The detection of optical signals -- 3.2. Photon counting -- 3.3. Modeling photodetection -- 3.4. Photocurrent statistics -- 3.5. Ideal direct detection -- 3.6. Ideal coherent detection -- 3.7. References -- 4. Photodetectors -- 4.1. Photomultipliers -- 4.2. Photoconductors -- 4.3. The p-n photodiode -- 4.4. Metal-semiconductor photodiodes -- 4.5. The p-i-n photodiode -- 4.6. The avalanche photodiode -- 4.7. Small signal equivalent circuit model for a photodetector -- 4.8. References -- 5. Receiver noise modeling -- 5.1. Fundamentals of noise analysis -- 5.2. Noise sources in an optical receiver -- 5.3. Electronics noise. 5.3.1. Thermal-noise; 5.3.2. Electronic shot-noise; 5.3.3. 1/f noise; 5.3.4. Noise model of an electronic amplifier -- 5.4. Photodetector dark-current noise -- 5.5. Photodetector thermal-noise -- 5.6. Photoconductor generation-recombination noise -- 5.7. APD excess noise -- 5.8. Optical excess-noise -- 5.8.1. Laser intensity-noise -- 5.8.2. Modal-noise -- 5.8.3. Mode-partition-noise -- 5.9. Optical background noise -- 5.10. Noise equivalent circuit for an optical receiver -- 5.11. Degradation from the quantum shot-noise limited noise-density -- 5.12. Total equivalent noise power in the receiver. 5.12.1. Broad-band systems; 5.12.2. Narrow-band systems; 5.12.3. Base-band digital systems -- 5.13. Noise equivalent power and detectivity -- 5.14. References.
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6. Receiver front-end design -- 6.1. Front-end architectures. 6.1.1. Low impedance voltage amplifier; 6.1.2. High-impedance amplifier; 6.1.3. Transimpedance amplifier; 6.1.4. Noise-matched or resonant amplifiers -- 6.2. Amplifier circuit design. 6.2.1. Bipolar transistor amplifiers; 6.2.2. FET amplifiers; 6.2.3. Transimpedance of a single-stage amplifier -- 6.3. Multistage amplifiers -- 6.4. References -- 7. Receiver performance analysis -- 7.1. Digital demodulation. 7.1.1. Digital signaling formats -- 7.2. Direct detection digital receivers. 7.2.1. Ideal photon counting on-off keying; 7.2.2. Receiver noise, pulse shaping filters, and the eye diagram; 7.2.3. OOK with a p-i-n photodetector front-end; 7.2.4. OOK with an APD front-end -- 7.3. Coherent detection digital receivers. 7.3.1. Modulation formats and demodulators for coherent receivers; 7.3.2. Linewidth effects -- 7.4. Optically preamplified digital receivers. 7.4.1. ASK or OOK with an optically preamplified receiver; 7.4.2. Preamplified receivers for FSK and DPSK -- 7.5. Clock recovery -- 7.6. Analog receivers -- 7.7. Reported receiver sensitivities -- 7.8. References -- Index.
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This Tutorial Text provides an overview of design principles for receivers used in optical communication systems, intended for practicing engineers. The author reviews technologies used to construct optical links and illustrates the flow of system performance specifications into receiver requirements. Photodetector fundamentals, associated statistics, characteristics and performance issues are presented, together with a tutorial on noise analysis and the specific techniques needed to model optical receivers.
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http://dx.doi.org/10.1117/3.219402
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