射頻電路設計——理論與應用(第二版)(英文版)

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主題圖書: 射頻電路
定價: ¥ 65
作者: (美)路德維格,(美)波格丹諾夫 著
出版: 電子工業出版社
書號: 9787121100956
語言: 簡體中文
日期: 2010-01-01
版次: 1 頁數: 553
開本: 16開 查看: 0
射頻電路設計——理論與應用(第二版)(英文版)

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圖書介紹

本書從低頻電路理論到射頻、微波電路理論的演化過程出發,討論以低頻電路理論為基礎并結合高頻電壓、電流的波動特征來分析和設計射頻、微波系統的方法——微波等效電路法,使不具備電磁場理論和微波技術背景的讀者也能了解和掌握射頻、微波電路的基本設計原則和方法。全書共10章,涵蓋傳輸線、匹配器、濾波器、混頻器、放大器和振蕩器等主要射頻微波系統單元的理論分析和設計問題及電路分析工具(圓圖、網絡參量和信號流圖)。書中例題非常有實用價值。全書大多數電路都經過ADS仿真,并提供標準MATLAB計算程序。
本書適合作為通信、電子類學科學生的雙語課程教材,也適合工程技術人員參考。

圖書目錄

Chapter 1 Introduction/1
1.1 Importance of Radio Frequency Design/2
1.2 Dimensions and Units/5
1.3 Frequency Spectrum/7
1.4 RF Behavior of Passive Components/8
1.4.1 Resistors at High Frequency/13
1.4.2 Capacitors at High Frequency/15
1.4.3 Inductors at High Frequency/18
1.5 Chip Components and Circuit Board Considerations/20
1.5.1 Chip Resistors/20
1.5.2 Chip Capacitors/21
1.5.3 Surface-Mounted Inductors/22
1.6 RF Circuit Manufacturing Processes/22
1.7 Summary/25
Chapter 2 Transmission Line Analysis/33
2.1 Why Transmission Line Theory?/33
2.2 Examples of Transmission Lines/36
2.2.1 Two-Wire Lines/36
2.2.2 Coaxial Line/37
2.2.3 Microstrip Lines/37
2.3 Equivalent Circuit Representation/39
2.4 Theoretical Foundation/41
2.4.1 Basic Laws/41
2.5 Circuit Parameters for a Parallel-Plate Transmission Line/46
2.6 Summary of Different Line Configurations/49
2.7 General Transmission Line Equation/49
2.7.1 Kirchhoff Voltage and Current Law Representations/49
2.7.2 Traveling Voltage and Current Waves/53
2.7.3 Characteristic Impedance/53
2.7.4 Lossless Transmission Line Model/54
2.8 Microstrip Transmission Lines/54
2.9 Terminated Lossless Transmission Line/58
2.9.1 Voltage Reflection Coefficient/58
2.9.2 Propagation Constant and Phase Velocity/60
2.9.3 Standing Waves/60
2.10 Special Termination Conditions/63
2.10.1 Input Impedance of Terminated Lossless Line/63
2.10.2 Short-Circuit Terminated Transmission Line/64
2.10.3 Open-Circuited Transmission Line/66
2.10.4 Quarter-Wave Transmission Line/67
2.11 Sourced and Loaded Transmission Line/70
2.11.1 Phasor Representation of Source/70
2.11.2 Power Considerations for a Transmission Line/71
2.11.3 Input Impedance Matching/73
2.11.4 Return Loss and Insertion Loss/74
2.12 Summary/76
Chapter 3 The Smith Chart/83
3.1 From Reflection Coefficient to Load Impedance/83
3.1.1 Reflection Coefficient in Phasor Form/84
3.1.2 Normalized Impedance Equation/85
3.1.3 Parametric Reflection Coefficient Equation/86
3.1.4 Graphical Representation/89
3.2 Impedance Transformation/90
3.2.1 Impedance Transformation for General Load/90
3.2.2 Standing Wave Ratio/92
3.2.3 Special Transformation Conditions/93
3.2.4 Computer Simulations/97
3.3 Admittance Transformation/98
3.3.1 Parametric Admittance Equation/98
3.3.2 Additional Graphical Displays/101
3.4 Parallel and Series Connections/102
3.4.1 Parallel Connection of R and L Elements/102
3.4.2 Parallel Connection of R and C Elements/103
3.4.3 Series Connection of R and L Elements/103
3.4.4 Series Connection of R and C Elements/104
3.4.5 Example of a T-Network/105
3.5 Summary/109
Chapter 4 Single- and Multiport Networks/117
4.1 Basic Definitions/117
4.2 Interconnecting Networks/124
4.2.1 Series Connection of Networks/124
4.2.2 Parallel Connection of Networks/126
4.2.3 Cascading Networks/126
4.2.4 Summary of ABCD Network Representations/127
4.3 Network Properties and Applications/131
4.3.1 Interrelations between Parameter Sets/131
4.3.2 Analysis of Microwave Amplifier/132
4.4 Scattering Parameters/135
4.4.1 Definition of Scattering Parameters/136
4.4.2 Meaning of S-Parameters/138
4.4.3 Chain Scattering Matrix/140
4.4.4 Conversion between Z- and S-Parameters/142
4.4.5 Signal Flowgraph Modeling/143
4.4.6 Generalization of S-Parameters/148
4.4.7 Practical Measurements of S-Parameters/150
4.5 Summary/156
Chapter 5 An Overview of RF Filter Design/164
5.1 Basic Resonator and Filter Configurations/165
5.1.1 Filter Types and Parameters/165
5.1.2 Low-Pass Filter/168
5.1.3 High-Pass Filter/171
5.1.4 Bandpass and Bandstop Filters/172
5.1.5 Insertion Loss/177
5.2 Special Filter Realizations/180
5.2.1 Butterworth-Type Filters/180
5.2.2 Chebyshev-Type Filters/183
5.2.3 Denormalization of Standard Low-Pass Design/188
5.3 Filter Implementation/196
5.3.1 Unit Elements/197
5.3.2 Kuroda誷 Identities/198
5.3.3 Examples of Microstrip Filter Design/199
5.4 Coupled Filter/206
5.4.1 Odd and Even Mode Excitation/206
5.4.2 Bandpass Filter Section/209
5.4.3 Cascading Bandpass Filter Elements/210
5.4.4 Design Example/211
5.5 Summary/215
Chapter 6 Active RF Components/223
6.1 Semiconductor Basics/224
6.1.1 Physical Properties of Semiconductors/224
6.1.2 The pn-Junction/229
6.1.3 Schottky Contact/236
6.2 RF Diodes/239
6.2.1 Schottky Diode/239
6.2.2 PIN Diode/242
6.2.3 Varactor Diode/246
6.2.4 IMPATT Diode/248
6.2.5 Tunnel Diode/250
6.2.6 TRAPATT, BARRITT, and Gunn Diodes/251
6.3 Bipolar-Junction Transistor/252
6.3.1 Construction/252
6.3.2 Functionality/254
6.3.3 Frequency Response/259
6.3.4 Temperature Behavior/261
6.3.5 Limiting Values/264
6.3.6 Noise Performance/265
6.4 RF Field Effect Transistors/266
6.4.1 Construction/266
6.4.2 Functionality/267
6.4.3 Frequency Response/272
6.4.4 Limiting Values/272
6.5 Metal Oxide Semiconductor Transistors/273
6.5.1 Construction/273
6.5.2 Functionality/274
6.6 High Electron Mobility Transistors/275
6.6.1 Construction/276
6.6.2 Functionality/276
6.6.3 Frequency Response/279
6.7 Semiconductor Technology Trends/279
6.8 Summary/284
Chapter 7 Active RF Component Modeling/290
7.1 Diode Models/290
7.1.1 Nonlinear Diode Model/290
7.1.2 Linear Diode Model/293
7.2 Transistor Models/295
7.2.1 Large-Signal BJT Models/295
7.2.2 Small-Signal BJT Models/301
7.2.3 Large-Signal FET Models/311
7.2.4 Small-Signal FET Models/314
7.2.5 Transistor Amplifier Topologies/317
7.3 Measurement of Active Devices/318
7.3.1 DC Characterization of Bipolar Transistor/318
7.3.2 Measurements of AC Parameters of Bipolar Transistors/320
7.3.3 Measurements of Field Effect Transistor Parameters/323
7.4 Scattering Parameter Device Characterization/325
7.5 Summary/332
Chapter 8 Matching and Biasing Networks/338
8.1 Impedance Matching Using Discrete Components/338
8.1.1 Two-Component Matching Networks/338
8.1.2 Forbidden Regions, Frequency Response, and Quality Factor/346
8.1.3 T and Pi Matching Networks/354
8.2 Microstrip Line Matching Networks/357
8.2.1 From Discrete Components to Microstrip Lines/357
8.2.2 Single-Stub Matching Networks/360
8.2.3 Double-Stub Matching Networks/364
8.3 Amplifier Classes of Operation and Biasing Networks/366
8.3.1 Classes of Operation and Efficiency of Amplifiers/367
8.3.2 Bipolar Transistor Biasing Networks/371
8.3.3 Field Effect Transistor Biasing Networks/376
8.4 Summary/382
Chapter 9 RF Transistor Amplifier Design/387
9.1 Characteristics of Amplifiers/387
9.2 Amplifier Power Relations/388
9.2.1 RF Source/388
9.2.2 Transducer Power Gain/389
9.2.3 Additional Power Relations/390
9.3 Stability Considerations/392
9.3.1 Stability Circles/392
9.3.2 Unconditional Stability/395
9.3.3 Stabilization Methods/400
9.4 Constant Gain/402
9.4.1 Unilateral Design/402
9.4.2 Unilateral Figure of Merit/407
9.4.3 Bilateral Design/408
9.4.4 Operating and Available Power Gain Circles/411
9.5 Noise Figure Circles/416
9.6 Constant VSWR Circles/419
9.7 Broadband, High-Power, and Multistage Amplifiers/423
9.7.1 Broadband Amplifiers/423
9.7.2 High-Power Amplifiers/431
9.7.3 Multistage Amplifiers/434
9.8 Summary/440
Chapter 10 Oscillators and Mixers/446
10.1 Basic Oscillator Models/447
10.1.1 Feedback Oscillator/447
10.1.2 Negative Resistance Oscillator/448
10.1.3 Oscillator Phase Noise/458
10.1.4 Feedback Oscillator Design/463
10.1.5 Design Steps/465
10.1.6 Quartz Oscillators/468
10.2 High-Frequency Oscillator Configuration/470
10.2.1 Fixed-Frequency Oscillators/473
10.2.2 Dielectric Resonator Oscillators/478
10.2.3 YIG-Tuned Oscillator/482
10.2.4 Voltage-Controlled Oscillator/483
10.2.5 Gunn Element Oscillator/485
10.3 Basic Characteristics of Mixers/486
10.3.1 Basic Concepts/487
10.3.2 Frequency Domain Considerations/489
10.3.3 Single-Ended Mixer Design/490
10.3.4 Single-Balanced Mixer/497
10.3.5 Double-Balanced Mixer/498
10.3.6 Integrated Active Mixers/498
10.3.7 Image Reject Mixer/502
10.4 Summary/512
Appendix A Useful Physical Quantities and Units/517
Appendix B Skin Equation for a Cylindrical Conductor/522
Appendix C Complex Numbers/525
Appendix D Matrix Conversions/527
Appendix E Physical Parameters of Semiconductors/530
Appendix F Long and Short Diode Models/531
Appendix G Couplers/534
Appendix H Noise Analysis/540
Appendix I Introduction to MATLAB/549

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