电子通信技术：英文版

I Radio Frequency Amplifiers 1

1-1 Impedance Review 5

1-2 Series Resonance 6

1-3 Circuit Qand Bandwidth 8

1-4 Parallel Resonance 9

1-5 Small-Signal RF Amplifier Analysis 14

1-6 Small-signal RF Amplifier Design18

1-7 Coupling Tuned Circuits 22

1-8 Nonideal Transformer Coupling 25

1-9 Double-Tuned Circuits 31

1-10 Laplace Transforms 35

1-11 Computer Analysis 45

2 Oscillators 54

2-1 Hartley Oscillator Circuit Analysis 57

2-2 Colpitts Oscillator 60

2-3 Clapp Oscillator 63

2-4 Tuned-input/Tuned-Output Oscillator 64

2-5 Untuned Oscillators 65

2-6 Oscillator Stability and Spectral Purity 68

2-7 Crystals and Crystal Oscillators 70

2-8 Pierce Crystal Oscillator 75

2-9 Computer Analysis 80

3 Signal Spectra 83

3-1 Fourier Series and Signal Analysis 84

3-2 Fourier Transforms 94

3-3 Effect of Filters on Signals 97

3-4 Harmonic and Phase Distortion 100

3-5 Nondeterministic Signals 101

3-6 Computer Analysis 105

4 Elements of Noise 111

4-1 System Noise Sources 112

4-2 Noise Spectral Density and Circuit Calculations 115

4-3 Noise and Feedback 119

4-4 System Noise Figure 119

4-5 Noise Temperature 120

4-6 Noise Bandwidth 121

4-7 Correlation and Noise 123

4-8 Computer Analysis 129

5 Modulation and Amplitude-Modulation Systems 133

5-1 Communications Systems 134

5-2 Voice Transmission and Multiplexing 135

5-3 Modulation 136

5-4 AM Spectrum and Bandwidth 139

5-5 Power in an AM Signal 141

5-6 Nonsinusoidal Modulation Signals 142

5-7 AM Demodulation 144

5-8 AM Receiver Systems 148

5-9 Superheterodyne Receivers for AM 149

5-10 Receiver Gain and Sensitivity 151

5-11 Power Level in dBm and dBW 152

5-12 AGO and Dynamic Range 154

5-13 Receiver Noise 157

5-14 Signal-to-Noise Ratio (S/N) 158

5-15 Derivation of the Noise Figure Equation 158

5-16 Bandwidth Improvement 160

5-17 Bandwidth Narrowing 163

5-18 Computer Analysis 166

6 Transmitter Circuits 170

6-1 Power Amplifiers 171

6-2 Neutralization 177

6-3 Integrated Circuit, RF Power Amplifiers 178

6-4 Impedance-Matching Networks 184

6-5 AM Modulator Circuits 193

6-6 Computer Analysis 201

7 Receiver Circuits 204

7-1 Low-Noise Amplifiers (LNAs) 205

7-2 Mixers 208

7-3 Tuning the Standard Broadcast Receiver 217

7-4 Filter Requirements for Interference Control and Selectivity 219

7-5 Filter Circuit Design 225

7-6 IF Amplifiers 234

7-7 ACC Circuits 240

7-8 The Audio System 244

7-9 Distortion and Feedback 247

7-10 Computer Analysis 265

8 Sideband Systems 283

8-1 Vestigial Sideband 284

8-2 Double Sideband/Suppressed Carrier 285

8-3 Balanced Modulator 286

8-4 Product Detector 293

8-5 Phase Distortion in the Demodulation of Suppressed-Carrier Systems 393

8-6 Single Sideband/Suppressed Carrier 294

8-7 Frequency-Division Multiplexing in Telephone Systems 301

8-8 Quadrature Multiplexing 304

8-9 Costas Loop for Suppressed-Carrier Demodulation 806

8-10 Computer Analysis 310

9 Frequency and Phase Modulation 312

9-1 Frequency Modulation 312

9-2 Phase Modulation 323

9-3 Advantages of PM over FM 332

9-4 FM Transmitter Circuits 333

9-5 Frequency Stability and AFC 346

9-6 FM Receivers 351

9-7 Noise Performance 364

9 8 Stereo FM 367

9-9 Computer Analysis 374

10 Phase-Locked Loops 381

10-1 Loop Components 383

10-2 Basic Loop Behavior 389

10-3 Loop Frequency Response and Bandwidth 393

10-4 FM and FSK Applications of PLLs 399

10-5 Noise 400

10-6 Improving Loop Response 401

10-7 Phase-Locked Loop Compensation 410

10-8 Frequency Synthesizers 417

10-9 Coherent Receivers: Phase-Locked Loop, Acquisition,

10-10 Computer Analysis 439

11 Pulse and Digital Modulation 444

11-1 Sampled Data and the Sampling Theorem 444

11-2 Pulse Amplitude Modulation Natural and Flat-Top Sampling 447

11-3 Pulse Width and Pulse Position Modulation (PWM & PPM) 453

11-4 Digital Modulation 456

11-5 Quantization Noise 466

11-6 Qualitative Comparisons of Pulse and Digital Modulation Systems 467

11-7 Computer Analysis 470

12 Digital Communication Concepts 472

12-1 Digital Information 473

12-2 Information Transfer Rate 474

12-3 Signaling (Baud) Rate 475

12-4 System Capacity 477

12-5 Bandwidth Considerations 480

12-6 Power in Digital Signals 484

12-7 PCM System Analysis 486

12-8 PCM Telephone Circuitry 496

12-9 Computer Analysis 506

13 Data Communication Techniques 516

13-1 Standard Digital Codes 517

13-2 Error Detection 525

13-3 Noise and Data Errors 532

13-4 Intercomputer Communications 535

13-5 Serial-Transmission Interfacing 536

13-6 Carrier Systems and Modems 546

13-7 Synchronous Communication Techniques 552

13-8 Open System Interconnect and ISDN 562

13-9 Computer Analysis 571

14 Transmission Lines and Waveguides 576

14-1 Transmission Lines 577

14-2 Sinusoidal Signals as Traveling Waves 585

14-3 The Smith Chart 589

14-4 Impedance-Matching Techniques 592

14-5 S-Parameters 595

14-6 Microstrip Amplifier Design 601

14-7 Waveguides 608

14-8 Directional Couplers 615

14-9 Computer Analysis 620

15 Antennas and Radiowave Propagation 625

15-1 Antenna Radiation 626

15-2 Received Power and Electric Field Strength 629

15-3 Dipole (Hertz) Antenna 629

15-4 Directivity, Gain, and Aperture 630

15-5 Beamwidth 631

15-6 The Grounded Vertical (Marconi) Antenna 631

15-7 Television Antennas and Arrays 633

15-8 The Folded Dipole 634

15-9 Turnstiles, Yagis, and Other Arrays 635

15-10 Loop Antennas 639

15-11 Parabolic Dish Antennas 640

15-12 Wave Propagation Through Space 644

15-13 Power Loss in Space 648

15-14 Computer Analysis 653

16 Basic Television 656

16-1 Overview: Studio to Viewer 657

16-2 Frequency Allocations 658

16-3 TV Cameras 659

16-4 The Scan Raster and Synchronizing Signals 660

16-5 Video Bandwidth and Resolution 662

16-6 Transmitted Video and Audio Signals 662

16-7 Black-and-White TV Receivers 663

16-8 Color Television 674

16-9 High-Definition Television 681

17 Digital Radio and Space Communication 691

17-1 Modems and Digital Modulation Techniques 693

17-2 Noise and Error Rate Performance 710

17-3 Space and Frequency Diversity 714

17-4 System Gain, Power, and Noise Budgets 715

17-5 Satellite Access for Global Networking 720

17-6 Spread Spectrum Systems 730

17-7 Multiple Access Cellular Systems 737

17-8 Digital Modulation in Wireless Cellular and Personal

17-9 RF Receiver and Transmitter System Considerations 760

17-10 RF Integrated Circuits and Transceivers for Digital Communications 780

17-11 Computer Analysis 806

18 Fiber-Optic Communication 811

18-1 The Optical Fiber Communication Link 812

18-2 Light 813

18-3 Light Propagation in Glass Fibers 814

18-4 Transmitter Devices and Circuits 825

18-5 Receiver Devices and Circuits 831

18-6 Transmission Technology 834

17-9 RF Receiver and Transmitter System Considerations 760

17-10 RF Integrated Circuits and Transceivers for Digital Communications 780

17-11 Computer Analysis 806

18 Fiber-Optic Communication 811

18-1 The Optical Fiber Communication Link 812

18-2 Light 813

18-3 Light Propagation in Glass Fibers 814

18-4 Transmitter Devices and Circuits 825

18-5 Receiver Devices and Circuits 831

18-6 Transmission Technology 834

18-7 Fiber-Optic Data-Link Analysis 840

18-8 Fiber-Optic Communication Applications 847

18-9 Computer Analysis 859

Appendices A-1

Appendix A Introducing the Impulse Function A-2

Appendix B Filter Attenuation Curves A-4

Appendix C Feedback Analysis for a Transconductance Amplifier A-10

Appendix D Derivation of Frequency Response for PLLs A-12

Appendix E Communications Software A-16

Appendix F Abbreviations and Acronyms A-22

Answers to Selected Problems ANS-1

Index I-1