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完整无线设计
完整无线设计

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工业技术

  • 电子书积分:16 积分如何计算积分?
  • 作 者:(美)塞杰(Sagre,C.W.)著
  • 出 版 社:北京:清华大学出版社
  • 出版年份:2004
  • ISBN:7302102864
  • 页数:547 页
图书介绍:本书是为适应大批电子信息专业学生和技术人员渴求获得无线有关的知识、技术和经验的需求而撰写的全面讨论无线设计的专业书。可作为本科生的教学参考书,作为工程师和业余爱好者的自学教材,是无线设计的最佳资源,包括:设计cutting-edge filters,amplifiers、RF switches,oscillators等丰富内容;阻抗匹配的简化计算,无线链路分析,以及完善频率计划;设计RFIC和MMIC的实例;掌握全电路以及电磁软件的仿真。同时,代替众多复杂的数学推导过程,给出了一系列简明的计算公式;避免了纯粹的理论叙述,给出了大量的设计实例;从系统、电路、器件到测试和设计工具,内容全面,通俗易懂。作为无线设计领域最畅销书的作者,Cotter W. Sayre给你现今无线系统和电路设计所需的所有技巧。
《完整无线设计》目录
标签:无线 设计

Chapter 1.Wireless Essentials 1

1.1 Passive Components at RF 1

1.1.1 Introduction 1

1.1.2 Resistors 2

1.1.3 Capacitors 2

1.1.4 Inductors 4

1.1.5 Transformers 7

1.2.3 Transistors 1 7

1.2 Semiconductors 9

1.2.1 Introduction 9

1.2.2 Diodes 10

Contents 11

Preface 11

1.3.1 Introduction 26

1.3 Microstrip 26

1.3.2 Microstrip as Transmission Line 27

1.3.3 Microstrip as Equivalent Components 28

1.4 Transmission Lines 38

1.4.1 Introduction 38

1.4.2 Transmission Line Types 38

1.4.3 Transmission Line Issues 39

1.5 S-Parameters 39

1.5.1 Introduction 39

1.5.2 S-Parameter Measurement 43

1.6 Propagation 48

1.6.1 Introduction 48

1.6.2 Multipath 48

2.1.2 Fundamentals 51

2.1.1 Introduction 51

2.1 Amplitude Modulation 51

Chapter 2.Modulation 51

2.1.3 Power Measurement 56

2.1.4 Disadvantages 57

2.2 Frequency Modulation 57

2.2.1 Introduction 57

2.2.2 Fundamentals 57

2.2.3 FM and AM Comparisons 62

2.3 Single-Sideband Modulation 62

2.3.1 Introduction 62

2.3.2 Fundamentals 63

2.3.3 Modulation 64

2.3.4 Output Power 65

2.4.2 Types of Digital Modulation 66

2.4.1 Introduction 66

2.4 Digital Modulation 66

2.4.3 Power and Digital Signals 70

2.4.4 Digital Modulation Issues 72

2.5 Designing with Modulator/Demodulator l.C.s 81

2.5.1 Introduction 81

2.5.2 Designing with the RFMD RF2703 83

2.6 Digital Test and Measurement 86

2.6.1 Introduction 86

2.6.2 Common Digital Tests and Measurements 87

Chapter 3. Amplifier Design 99

3.1 Small Signal Amplifiers 111

3.1.1 Introduction 111

3.1.2 Amplifier Design with S-Parameters 112

3.1.3 Vector Algebra 121

3.1.4 Matching Networks 126

3.2 Large Signal Amplifiers 151

3.2.1 Introduction 151

3.2.2 Amplifier Design with Large Signal Series Equivalent Impedances 155

3.3 Amplifier Biasing 158

3.3.1 Introduction 158

3.3.2 Bias Designs 173

3.4 MMICs 187

3.4.1 Introduction 187

3.4.2 MMIC Biasing 188

3.4.3 MMIC Coupling and Decoupling 191

3.4.4 An MMIC Amplifier Circuit 192

3.4.5 MMIC Layout 193

3.5.1 Introduction 194

3.5 Wideband Amplifier 194

3.5.2 Design of Wideband Amplifiers 198

3.6 Parallel Amplifier 199

3.6.1 Introduction 199

3.6.2 Design of a Parallel MMIC Amplifier 201

3.7 Audio Amplifiers 202

3.7.1 Introduction 202

3.7.2 Design of an IC Audio Amplifier 203

3.8 VGA Amplifiers 204

3.8.1 Introduction 204

3.8.2 Design of VGA Amplifiers 204

3.9 Coupling/Decoupling of Amplifiers 206

3.9.1 Introduction 206

3.9.2 Design of Decoupling/Coupling Circuits 207

Chapter 4.Oscillator Design 213

4.1 Oscillator Simulation 216

4.1.1 Introduction 216

4.1.2 Open-Loop Design 216

4.2 VCO and LC OsciIlators 224

4.2.1 Introduction 224

4.2.2 Types of LC Oscillators 224

4.2.3 Designing LC Oscillators and VCOs 227

4.2.4 Testing LC Oscillators 236

4.2.5 LC and VCO Oscillator Issues 236

4.3 Crystal Oscillators 240

4.3.1 Introduction 240

4.3.2 Types of Crystal Oscillators 242

4.3.3 Designing Crystal Oscillators 244

4.3.4 Crystal Oscillator Issues 249

4.3.5 Testing and Optimizing Crystal Oscillators 251

Chapter 5.Frequency Synthesizer Design 253

5.1 Phase-Locked Loops 253

5.1.1 Introduction 253

5.1.2 Designing Phase-Locked Loops 258

5.2 Direct Digital Synthesis 266

Chapter 6.Filter Design 271

6.1 Lumped Filters 278

6.1.1 Introduction 278

6.1.2 Types of Lumped Filters 279

6.1.3 Image-Parameter Design 280

6.2 Distributed Filters 290

6.2.1 Introduction 290

6.2.2 Types of Distributed Filters 292

6.2.3 Distributed Filter Design 293

6.2.4 Distributed Filter Issues 298

6.3 Diplexer Filters 299

6.3.1 Introduction 299

6.3.2 Diplexer Design 300

6.4 Crystal and SAW Filters 301

6.4.1 Introduction 301

6.4.2 Crystal and SAW Filter Issues 302

6.5 Active Filters 304

6.5.1 Introduction 304

6.5.2 Active Filter Design 305

6.6 Tunable Filters 307

6.6.1 Introduction 307

6.6.2 Tunable Filter Design 307

Chapter 7.Mixer Design 313

7.1 Passive Mixers 314

7.1.1 Introduction 314

7.1.2 Types of Passive Mixers 315

7.1.3 Passive Mixer Design 317

7.1.4 Passive Mixer Issues 319

7.2 Active Mixers 324

7.2.1 Introduction 324

7.2.2 Types of Active Mixers 324

7.2.3 Designing Active Mixers 327

7.2.4 Active Mixer Issues 331

Chapter 8.Support Circuit Design 333

8.1 Frequency Multipliers 333

8.1.1 Introduction 333

8.1.2 Frequency Multiplier Design 337

8.1.3 Frequency Multiplier Issues 340

8.2 RF Switches 342

8.2.1 Introduction 342

8.2.2 RF Switch Design 343

8.2.3 RF Switch lssues 348

8.3 Automatic Gain ControI 349

8.3.1 Introduction 349

8.3.2 Automatic Gain Control Design 351

8.3.3 Automatic Gain Control Issues 356

8.4 Attenuators 357

8.4.1 Introduction 357

8.4.2 Fixed Attenuator Design 357

8.4.3 Variable-Attenuator Design 358

8.5.1 Introduction 360

8.5 Baluns 360

8.5.2 Balun Design 361

8.6 Splitters/Combiners 362

8.6.1 Introduction 362

8.6.2 Splitter and Combiner Design 362

8.7 Power Supplies 365

8.7.1 Introduction 365

8.7.2 Types of Power Supply Regulators 370

8.7.3 Regulator Design 373

8.8 Directional Couplers 377

8.8.1 Introduction 377

8.8.2 Directional Coupler Design 378

Chapter 9.Communication Systems Design 379

9.1 Receivers 379

9.1.1 Introduction 379

9.1.2 Receiver Design 380

9.1.3 Receiver Issues 388

9.2 Transmitters 389

9.2.1 Introduction 389

9.2.2 Transmitter Design 390

9.3 Link Budgets 393

9.3.1 Introduction 393

9.3.2 Link Budget Design 394

9.3.3 Will It Work? 397

9.4 The Complete System 401

9.4.1 Introduction 401

9.4.2 Wireless System Design 401

9.4.3 System Design with RFICs 406

9.4.4 System Issues 409

10.1 Noise in Components and Systems 413

Chapter 10.Wireless lssues 413

10.2 Electromagnetic Interference 414

10.2.1 Introduction 414

10.2.2 Designing for EMI Suppression 414

10.3 Wireless Board Design 417

10.3.1 Introduction 417

10.3.2 Board Materials 417

10.3.3 Board Layout 419

10.3.4 Board Design Issues 425

10.4 Software Radio 429

10.4.1 Introduction 429

10.4.2 Software Radio Designs 429

10.5 Hybrid Circuits 431

10.5.1 Introduction 431

10.5.2 Board and Conductor Materials 432

10.6.1 Introduction 433

10.6 Direct-Conversion Receivers 433

10.6.2 Direct-Conversion lssues 434

10.7 Prototyping 435

10.7.1 IntroduCtion 435

10.7.2 Prototyping Considerations 435

10.8 Antennas 436

10.8.1 Introduction 436

10.8.2 Common Antenna Types 439

10.8.3 Antenna Issues 441

10.9 RF Connectors 442

10.9.1 Introduction 442

10.9.2 Types of RF Connectors 442

10.10.2 RF Programs 443

10.10 Wireless Design Software 443

10.10.1 Introduction 443

10.10.3 RF Software Issues 445

10.11 FCC Equipment Autho rizations 448

10.11.1 Introduction 449

10.11.2 Wireless Equipment Law 449

10.12 Support Circuits 449

10.12.1 Introduction 451

10.12.2 Circuits 451

Appendix A.Puff Manual 459

Appendix B.Useful Tables 519

Glossary 523

Bibliography 539

Index 543

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