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光通信集成电路设计【2025|PDF|Epub|mobi|kindle电子书版本百度云盘下载】

罗扎威（Razavi，B.）著著
出版社：北京：清华大学出版社
ISBN：7302107203
出版时间：2005
标注页数：364页
文件大小：16MB
文件页数：378页
主题词：光通信－集成电路－电路设计－高等学校－教材－英文

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图书目录

ContentS1

1 Introduction to Optical Communications1

1.1 Brief History1

1.2 Generic Optical System2

1.3 Design Challenges5

1.4 State of the Art6

2 Basic Concepts8

2.1 Properties of Random Binary Data8

2.2 Generation of Random Data12

2.3 Data Formats14

2 3 1 NRZ and RZ Data14

2 3.2 8B/10B Coding14

2.4 Effect of Bandwidth Limitation on Random Data16

2.4 1 Effect of Low-Pass Filtering16

2.4 2 Eye Diagrams16

2 4.3 Effect of High-Pass Filtering18

2 5 Effect of Noise on Random Data21

2 6.1 Phase Noise24

2.6 Phase Noise and Jitter24

2 6 2 Jitter27

2 6 3 Relationship Between Phase Noise and Jitter28

2.6.4 Jitter Due to Additive Noise28

2.7 Transmission Lines30

2 7 1 Ideal Transmission Lines30

2.7 2 Lossy Transmission Lines33

3.1 Laser Diodes36

3 Optical Devices36

3 1 1 Operation of Lasers38

3.1.2 Types of Lasers40

3.1 3 Properties of Lasers42

3.1.4 Extemal Modulation45

3.2 Optical Fibers46

3.2.1 Fiber Loss47

3.2.2 Fiber Dispersion48

3 3.1 Responsivity and Efficiency55

3.3 Photodiodes55

3.3.2 PIN Diodes56

3.3 3 Avalanche Photodiodes57

3.4 Optical Systems58

4 Transimpedance Amplifiers62

4.1 General Considerations62

4.1.1 TIA Performance Parameters64

4 1 2 SNR Calculations69

4.1.3 Noise Bandwidth72

4.2 Open-Loop TIAs73

4.2.1 Low-Frequency Behavior73

4.2 2 High-Frequency Behavior81

4.3 Feedback TIAs87

4.3 1 First-Order TIA87

4.3.2 Second-Order TIA89

4 4 Supply Rejection97

4.5 Differential TIAs100

4.6.1 Gain Boosting103

4.6 High-Performance Technques103

4.6 2 Capacitive Coupling105

4.6.3 Feedback TIAs106

4.6 4 Inductive Peaking110

4.7 Automatic Gain Control114

4.8 Case Studies118

5 Limiting Amplifiers and Output Buffers123

5.1 General Considerations123

5.1.1 Performance Parameters123

5.1 2 Cascaded Gain Stages125

5.1.3 AM/PM Conversion129

5.2 Broadband Techniques131

5.2.1 Inductive Peaking131

5.2.2 Capacitive Degeneration133

5.2.3 Cherry-Hooper Amplifier136

5.2.4 fT Doublers140

5.3 Output Buffers142

5 3 1 Differential Signaling142

5.3.2 Double Termination146

5.3.3 Predriver Design149

5.4 Distributed Amplification152

5.4.1 Monolithic Transmission Lines152

5.4.2 Distributed Amplifiers156

5.4.3 Distributed Amplifiers with Lumped Devices163

6 Oscillator Fundamentals165

6.1 General Considerations165

6.2 Ring Oscillators167

6.3 LC Oscillators178

6.3.1 Crossed-Coupled Oscillator181

6.3.2 Colpitts Oscillator184

6.3.3 One-Port Oscillators187

6.4 Voltage-Controlled Oscillators191

6.4.1 Tuning in Ring Oscillators194

6.4.2 Tuning in LC Oscillators202

7 LC Oscillators208

7.1 Monolithic Inductors208

7.1.1 Loss Mechanisms210

7.1.2 Inductor Modeling214

7.1.3 InductorDesign Guidelines217

7.2 Monolithic Varactors221

7.3 Basic LC Oscillators223

7.3.1 Differential Control226

7.3.2 Design Procedure228

7.4 Quadrature Oscillators230

7.4.1 In-Phase Coupling232

7.4.2 Antiphase Coupling234

8 Phase-Locked Loops238

8.1 Simple PLL238

8.1.1 Phase Detector238

8.1.2 Basic PLL Topology239

8.1.3 Dynamics of Simple PLL248

8.2 Charge-Pump PLLs254

8.2.1 Problem of Lock Acquisition255

8.2.2 Phase/Frequency Detector and Charge Pump256

8.2.3 Basic Charge-Pump PLL260

8.3.1 PFD/CP Nonidealities267

8.3 Nonideal Effects in PLLs267

8.3.2 Jitter in PLLs271

8.4 Delay-Locked Loops274

8.5 Applications276

8.5.1 Frequency Multiplication and Synthesis277

8.5.2 Skew Reduction279

8.5.3 Jitter Reduction280

9.1 General Considerations282

9 ClockandDataRecovery282

9.2 Phase Detectors for Random Data294

9.2.1 Hogge Phase Detector294

9 2 2 Alexander Phase Detector298

9.2.3 Half-Rate Phase Detectors303

9.3 Frequency Detectors for Random Data307

9.4 CDR Architectures312

9.4.1 Full-RateReferencelessArchitecture312

9.4.2 Dual-VCO Architecture313

9.4.3 Dual-LoopArchitecturewithExternalReference315

9.5 Jitter in CDR Circuits316

9.5.1 Jitter Transfer316

9.5.2 Jitter Generation321

9.5.3 Jitter Tolerance323

10 Multiplexers and Laser Drivers327

10.1 Multiplexers327

10.1.1 2-to-1 MUX327

10.1.2 MUX Architectures332

10.2 Frequency Dividers335

10.2.1 Flipflop Dividers335

10.2.2 Miller Divider343

10.3 Laser and ModulatorDrivers345

10.3.1 Performance Parameters345

10.4 Design Principles349

10.4.1 Power Control355

Index357