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Analysis and Design of Transimpedance Amplifiers for Optical Receivers: New
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Item specifics
- Condition
- Book Title
- Analysis and Design of Transimpedance Amplifiers for Optical Rece
- Publication Date
- 2017-12-12
- ISBN
- 9781119263753
About this product
Product Identifiers
Publisher
Wiley & Sons, Incorporated, John
ISBN-10
1119263751
ISBN-13
9781119263753
eBay Product ID (ePID)
221902152
Product Key Features
Number of Pages
592 Pages
Language
English
Publication Name
Analysis and Design of Transimpedance Amplifiers for Optical Receivers
Publication Year
2017
Subject
Fiber Optics, Optics, Telecommunications, Electronics / General
Type
Textbook
Subject Area
Technology & Engineering
Format
Hardcover
Dimensions
Item Height
1.5 in
Item Weight
34.5 Oz
Item Length
9 in
Item Width
6.2 in
Additional Product Features
Intended Audience
Scholarly & Professional
LCCN
2017-016742
Dewey Edition
23
Illustrated
Yes
Dewey Decimal
621.381535
Table Of Content
Preface vii References xi 1 Introduction 1 1.1 Optical Transceivers 1 1.2 Modulation Formats 5 1.3 Transmission Modes 12 References 20 2 Optical Fibers 25 2.1 Loss and Bandwidth 25 2.2 Dispersion 29 2.3 Nonlinearities 34 2.4 Pulse Spreading due to Chromatic Dispersion 37 2.5 Summary 40 Problems 41 References 42 3 Photodetectors 45 3.1 pin Photodetector 46 3.2 Avalanche Photodetector 60 3.3 pin Detector with Optical Preamplifier 67 3.4 Integrated Photodetectors 78 3.5 Detectors for Phase-Modulated Optical Signals 86 3.6 Summary 94 Problems 96 References 97 4 Receiver Fundamentals 107 4.1 Receiver Model 108 4.2 Noise and Bit-Error Rate 110 4.3 Signal-to-Noise Ratio 116 4.4 Sensitivity 120 4.5 Noise Bandwidths and Personick Integrals 134 4.6 Optical Signal-to-Noise Ratio 138 4.7 Power Penalty 146 4.8 Inter-symbol Interference and Bandwidth 151 4.9 Frequency Response 162 4.10 Summary 167 Problems 168 References 171 5 Transimpedance Amplifier Specifications 177 5.1 Transimpedance 177 5.2 Input Overload Current 182 5.3 Maximum Input Current for Linear Operation 183 5.4 Bandwidth 184 5.5 Phase Linearity and Group Delay Variation 186 5.6 Timing Jitter 187 5.7 Input Referred Noise Current 187 5.8 Crosstalk 193 5.9 Product Examples 195 5.10 Summary 195 Problems 197 References 198 6 Basic Transimpedance Amplifier Design 201 6.1 Low and High Impedance Front Ends 202 6.2 Shunt Feedback TIA 205 6.3 Noise Analysis 224 6.4 Noise Optimization 236 6.5 Noise Matching 248 6.6 Summary 260 Problems 262 References 265 7 Advanced Transimpedance Amplifier Design I 271 7.1 TIA with Post Amplifier 271 7.2 TIA with Differential Inputs and Outputs 276 7.3 TIA with DC Input Current Control 281 7.4 TIA with Adaptive Transimpedance 284 7.5 Common Base and Common Gate TIAs 292 7.6 Regulated Cascode TIA 303 7.7 TIA with Inductive Broadbanding 311 7.8 Distributed Amplifier TIA 315 7.9 Summary 321 Problems 323 References 324 8 Advanced Transimpedance Amplifier Design II 331 8.1 TIA with Nonresistive Feedback 331 8.2 Current Mode TIA 337 8.3 TIA with Bootstrapped Photodetector 339 8.4 Burst Mode TIA 340 8.5 Analog Receiver TIA 347 8.6 Summary 351 Problems 352 References 352 9 Transimpedance Amplifier Circuit Examples 359 9.1 BJT, HBT, and BiCMOS Circuits 359 9.2 CMOS Circuits 366 9.3 MESFET and HFET Circuits 373 9.4 Summary 375 References 378 A Communication Signals 383 A.1 NonReturn-to-Zero Signal 384 A.2 Return-to-Zero Signal 387 A.3 Pulse Amplitude Modulated Signal 389 A.4 Analog Television Signal 391 A.5 Digital Television Signal 394 References 396 B Eye Diagrams 397 References 404 C Timing Jitter 405 C.1 Data Jitter 405 C.2 Clock Jitter 415 C.3 Jitter, Phase Noise, and BitError Rate 419 Problems 422 References 422 D Nonlinearity 425 D.1 Gain Compression 426 D.2 Harmonic Distortions 427 D.3 Intermodulation Distortions 429 D.4 Composite Distortions 430 Problems 433 References 433 E Adaptive Equalizers 435 E.1 Feedforward and Decision Feedback Equalizers 436 E.2 Adaptation Algorithms 440 E.3 Hardware Implementations 444 Problems 447 References 447 F Decision Point Control 453 Problems 457 References 457 G Forward Error Correction 459 Problems 464 References 465 H Second Order Low Pass Transfer Functions 467 References 479 I Answers to the Problems 481 References 514 J Notation 517 K Symbols 519 L Acronyms 529 Index 537
Synopsis
An up-to-date, comprehensive guide for advanced electrical engineering students and electrical engineers working in the IC and optical industries This book covers the major transimpedance amplifier (TIA) topologies and their circuit implementations for optical receivers. This includes the shunt-feedback TIA, common-base TIA, common-gate TIA, regulated-cascode TIA, distributed-amplifier TIA, nonresistive feedback TIA, current-mode TIA, burst-mode TIA, and analog-receiver TIA. The noise, transimpedance, and other performance parameters of these circuits are analyzed and optimized. Topics of interest include post amplifiers, differential vs. single-ended TIAs, DC input current control, and adaptive transimpedance. The book features real-world examples of TIA circuits for a variety of receivers (direct detection, coherent, burst-mode, etc.) implemented in a broad array of technologies (HBT, BiCMOS, CMOS, etc.). The book begins with an introduction to optical communication systems, signals, and standards. It then moves on to discussions of optical fiber and photodetectors. This discussion includes p-i-n photodetectors; avalanche photodetectors (APD); optically preamplified detectors; integrated detectors, including detectors for silicon photonics; and detectors for phase-modulated signals, including coherent detectors. This is followed by coverage of the optical receiver at the system level: the relationship between noise, sensitivity, optical signal-to-noise ratio (OSNR), and bit-error rate (BER) is explained; receiver impairments, such as intersymbol interference (ISI), are covered. In addition, the author presents TIA specifications and illustrates them with example values from recent product data sheets. The book also includes: Many numerical examples throughout that help make the material more concrete for readers Real-world product examples that show the performance of actual IC designs Chapter summaries that highlight the key points Problems and their solutions for readers who want to practice and deepen their understanding of the material Appendices that cover communication signals, eye diagrams, timing jitter, nonlinearity, adaptive equalizers, decision point control, forward error correction (FEC), and second-order low-pass transfer functions Analysis and Design of Transimpedance Amplifiers for Optical Receivers belongs on the reference shelves of every electrical engineer working in the IC and optical industries. It also can serve as a textbook for upper-level undergraduates and graduate students studying integrated circuit design and optical communication., An up-to-date, comprehensive guide for advanced electrical engineering students and electrical engineers working in the IC and optical industries This book covers the major transimpedance amplifier (TIA) topologies and their circuit implementations for optical receivers. This includes the shunt-feedback TIA, common-base TIA, common-gate TIA, regulated-cascode TIA, distributed-amplifier TIA, nonresistive feedback TIA, current-mode TIA, burst-mode TIA, and analog-receiver TIA. The noise, transimpedance, and other performance parameters of these circuits are analyzed and optimized. Topics of interest include post amplifiers, differential vs. single-ended TIAs, DC input current control, and adaptive transimpedance. The book features real-world examples of TIA circuits for a variety of receivers (direct detection, coherent, burst-mode, etc.) implemented in a broad array of technologies (HBT, BiCMOS, CMOS, etc.). The book begins with an introduction to optical communication systems, signals, and standards. It then moves on to discussions of optical fiber and photodetectors. This includes p-i-n photodetectors; avalanche photodetectors (APD); optically preamplified detectors; integrated detectors, including detectors for silicon photonics; and detectors for phase-modulated signals, including coherent detectors.This is followed by coverage of the optical receiver at the system level: the relationship between noise, sensitivity, optical signal-to-noise ratio (OSNR), and bit-error rate (BER) is explained; receiver impairments, such as intersymbol interference (ISI), are covered. In addition, the author presents TIA specifications and illustrates them with example values from recent product data sheets. The book also includes: Many numerical examples throughout that help make the material more concrete for readers Real-world product examples that show the performance of actual IC designs Chapter summaries that highlight the key points Problems and their solutions for readers who want to practice and deepen their understanding of the material Appendices that cover communication signals, eye diagrams, timing jitter, nonlinearity, adaptive equalizers, decision point control, forward error correction (FEC), and second-order low-pass transfer functions Analysis and Design of Transimpedance Amplifiers for Optical Receivers belongs on the reference shelves of every electrical engineer working in the IC and optical industries. It also can serve as a textbook for upper-level undergraduates and graduate students studying integrated circuit design and optical communication., An up-to-date, comprehensive guide for advanced electrical engineering students and electrical engineers working in the IC and optical industries This book covers the major transimpedance amplifier (TIA) topologies and their circuit implementations for optical receivers.
LC Classification Number
TK7871.2
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Seller Feedback (513,549)
- l***h (567)- Feedback left by buyer.Past monthVerified purchaseFast shipping... Great condition and exactly what I requested. Thank you!!
- r***r (73)- Feedback left by buyer.Past monthVerified purchaseExactly as described. In perfect condition. Prompt delivery.
- g***n (72)- Feedback left by buyer.Past monthVerified purchaseCondition was good. The cover had a slight bent on the corner due to packaging but overall order was well received.