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射频微电子(影印版)
作者:(美)Behzad Razavi著
出版社:清华大学出版社
出版时间:2003-12-01
ISBN:9787302075226
定价:¥35.00
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内容简介
Behzad Razavi所著的RF Microelectronics一书既可供高年级大学生或研究生作教科书用,又可满足集成电路设计工作者进一步提高自身知识和设计技能之目的。 相对其他RF CMOS电路的书籍而言,本书的特点是系统级的介绍较为详细。即它将无线通信电路系统的描述、器件特性及单元电路分析融合在一起,使读者有一个完整的概念。 本书共分9章。第1和第2章首先介绍了在射频电子学经常遇到的概念和术语,并 给出了评价射频电路性能的主要指标;第3章定义和描述了模拟信号和数字信号的调幅、调相和调频调制方法;第4章专门介绍3种在无线通信系统中通用的多路存取技术:FDMA,TDMA和CDMA,及几种常用的无线通信标准,如GSM和Qualcomm 公司的CDMA;第5章是本书的重点,讨论了无线前端收发器的结构和集成电路的实现;第6章至第9章详细讨论了低噪声放大器和混频器、振荡器、频率综合器和功放 器电路原理和分析方法。
作者简介
暂缺《射频微电子(影印版)》作者简介
目录
Preface
1 Introduction to RF and Wireless Technology
1.1 Complexity Comparison 2
1.2 Design Bottleneck 4
1.3 Applications 6
1.4 Analog and Digital Systems 7
1.5 Choice of Technology 9
References 10
2 Basic Concepts in RF Design
2.1 Nonlinearity and Time Variance 11
2.1.1 Effects of Nonlinearity 14
2.1.2 Cascaded Nonlinear Stages 22
2.2 Intersymbol Interference 25
2.3 Random Processes and Noise 28
2.3.1 Random Processes 29
2.3.2 Noise 37
2.4 Sensitivity and Dynamic Range 48
2.5 Passive Impedance Transformation 50
References 53
3 Modulation and Detection
3.1 General Considerations 54
3.2 Analog Modulation 57
3.2.1 Amplitude Modulation 57
3.2.2 Phase and Frequency Modulation 58
3.3 Digital Modulation 63
3.3.1 Basic Concepts 64
3.3.2 Binary Modulation 74
3.3.3 Quadrature Modulation 81
3.4 Power Efficiency of Modulation Schemes 90
3.4.1 Constant- and Variable-Envelope Signals 90
3.4.2 Spectral Regrowth 91
3.5 Noncoherent Detection 93
References 96
4 Multiple Access Techniques and Wireless Standards
4.1 Mobile RF Communications 98
4.2 Multiple Access Techniques 103
4.2.1 Tune- and Frequency-Division Duplexing 103
4.2.2 Frequency-Division Multiple Access 105
4.2.3 Tune-Division Multiple Access 105
4.2.4 Code-Division Multiple Access 107
4.3 Wireless Standards 110
4.3.1 Advanced Mobile Phone Service 111
4.3.2 North American Digital Standard 112
4.3.3 Global System for Mobile Communication 113
4.3.4 Qualcomm CDMA 114
4.3.5 Digital European Cordless Telephone 116
References 117
5 Transceiver Architectures
5.1 General Considerations 118
5.2 Receiver Architectures 122
5.2.1 Heterodyne Receivers 122
5.2.2 Homodyne Receivers 129
5.2.3 Image-Reject Receivers 138
5.2.4 Digital-IF Receivers 146
5.2.5 Subsampling Receivers 147
5.3 Transmitter Architectures 149
5.3.1 Direct-Conversion Transmitters 152
5.3.2 Two-Step Transmitters 154
5.4 Transceiver Performance Tests 155
5.5 Case Studies 157
5.5.1 Motorola's FM Receiver 157
5.5.2 Philips' Pager Receiver 158
5.5.3 Philips' DECT Transceiver 159
5.5.4 Lucent Technologies' GSM Transceiver 161
5.5.5 Philips' GSM Transceiver 162
References 163
6 Low-Noise Amplifiers and Mixers
6.1 Low-Noise Amplifiers 166
6.1.1 General Considerations 166
6.1.2 Input Matching 170
6.1.3 Bipolar LNAs 173
6.1.4 CMOS LNAs 178
6.2 Downconversion Mixers 180
6.2.1 General Considerations 180
6.2.2 Bipolar Mixers 188
6.2.3 CMOS Mixers 192
6.2.4 Noise in Mixers 194
6.3 Cascaded Stages Revisited 200
References 204
7 Oscillators
7.1 General Considerations 206
7.2 Basic LC Oscillator Topologies 209
7.3 Voltage-Controlled Oscillators 212
7.4 Phase Noise 214
7.4.1 Effect of Phase Noise in RF Communications 215
7.4.2 Q of an Oscillator 217
7.4.3 Phase Noise Mechanisms 220
7.4.4 Noise-Power Trade-off 224
7.4.5 Effect of Frequency Division and Multiplication on Phase Noise 224
7.4.6 Oscillator Pulling and Pushing 225
7.5 Bipolar and CMOS LC Oscillators 227
7.5.1 Negative-Gm Oscillators 227
7.5.2 Interpolative Oscillators 231
7.6 Monolithic Inductors 233
7.7 Resonatorless VCOs 235
7.8 Quadrature Signal Generation 236
7.8.1 RC-CR Network 236
7.8.2 Havens' Technique 239
7.8.3 Frequency Division 243
7.9 Single-Sideband Generation 243
References 244
8 Frequency Synthesizers
8.1 General Considerations 247
8.2 Phase-Locked Loops 249
8.2.1 Basic Concepts 249
8.2.2 Basic PLL 252
8.2.3 Charge-Pump PLLs 258
8.2.4 Type I and Type II PLLs 265
8.2.5 Noise in PLLs 266
8.2.6 Phase Noise at Input 266
8.2.7 Phase Noise of VCO 267
8.2.8 Frequency Multiplication 269
8.3 RF Synthesizer Architectures 269
8.3.1 Integer-N Architecture 270
8.3.2 Fractional-N Architecture 277
8.3.3 Dual-Loop Architectures 284
8.3.4 Direct Digital Synthesis 285
8.4 Frequency Dividers 290
8.4.1 Divide-by-Two Circuits 290
8.4.2 Dual-Modulus Dividers 293
References 296
9 Power Amplifiers
9.1 General Considerations 298
9.1.1 Linear and Nonlinear PAs 301
9.2 Classification of Power Amplifiers 301
9.2.1 Class A and B PAs 302
9.2.2 Class C PAs 305
9.3 High-Efficiency Power Amplifiers 306
9.4 Large-Signal Impedance Matching 310
9.5 Linearization Techniques 313
9.5.1 Feedforward 314
9.5.2 Feedback 315
9.5.3 Envelope Elimination and Restoration 317
9.5.4 LINC 318
9.6 Design Examples 320
References 323
1 Introduction to RF and Wireless Technology
1.1 Complexity Comparison 2
1.2 Design Bottleneck 4
1.3 Applications 6
1.4 Analog and Digital Systems 7
1.5 Choice of Technology 9
References 10
2 Basic Concepts in RF Design
2.1 Nonlinearity and Time Variance 11
2.1.1 Effects of Nonlinearity 14
2.1.2 Cascaded Nonlinear Stages 22
2.2 Intersymbol Interference 25
2.3 Random Processes and Noise 28
2.3.1 Random Processes 29
2.3.2 Noise 37
2.4 Sensitivity and Dynamic Range 48
2.5 Passive Impedance Transformation 50
References 53
3 Modulation and Detection
3.1 General Considerations 54
3.2 Analog Modulation 57
3.2.1 Amplitude Modulation 57
3.2.2 Phase and Frequency Modulation 58
3.3 Digital Modulation 63
3.3.1 Basic Concepts 64
3.3.2 Binary Modulation 74
3.3.3 Quadrature Modulation 81
3.4 Power Efficiency of Modulation Schemes 90
3.4.1 Constant- and Variable-Envelope Signals 90
3.4.2 Spectral Regrowth 91
3.5 Noncoherent Detection 93
References 96
4 Multiple Access Techniques and Wireless Standards
4.1 Mobile RF Communications 98
4.2 Multiple Access Techniques 103
4.2.1 Tune- and Frequency-Division Duplexing 103
4.2.2 Frequency-Division Multiple Access 105
4.2.3 Tune-Division Multiple Access 105
4.2.4 Code-Division Multiple Access 107
4.3 Wireless Standards 110
4.3.1 Advanced Mobile Phone Service 111
4.3.2 North American Digital Standard 112
4.3.3 Global System for Mobile Communication 113
4.3.4 Qualcomm CDMA 114
4.3.5 Digital European Cordless Telephone 116
References 117
5 Transceiver Architectures
5.1 General Considerations 118
5.2 Receiver Architectures 122
5.2.1 Heterodyne Receivers 122
5.2.2 Homodyne Receivers 129
5.2.3 Image-Reject Receivers 138
5.2.4 Digital-IF Receivers 146
5.2.5 Subsampling Receivers 147
5.3 Transmitter Architectures 149
5.3.1 Direct-Conversion Transmitters 152
5.3.2 Two-Step Transmitters 154
5.4 Transceiver Performance Tests 155
5.5 Case Studies 157
5.5.1 Motorola's FM Receiver 157
5.5.2 Philips' Pager Receiver 158
5.5.3 Philips' DECT Transceiver 159
5.5.4 Lucent Technologies' GSM Transceiver 161
5.5.5 Philips' GSM Transceiver 162
References 163
6 Low-Noise Amplifiers and Mixers
6.1 Low-Noise Amplifiers 166
6.1.1 General Considerations 166
6.1.2 Input Matching 170
6.1.3 Bipolar LNAs 173
6.1.4 CMOS LNAs 178
6.2 Downconversion Mixers 180
6.2.1 General Considerations 180
6.2.2 Bipolar Mixers 188
6.2.3 CMOS Mixers 192
6.2.4 Noise in Mixers 194
6.3 Cascaded Stages Revisited 200
References 204
7 Oscillators
7.1 General Considerations 206
7.2 Basic LC Oscillator Topologies 209
7.3 Voltage-Controlled Oscillators 212
7.4 Phase Noise 214
7.4.1 Effect of Phase Noise in RF Communications 215
7.4.2 Q of an Oscillator 217
7.4.3 Phase Noise Mechanisms 220
7.4.4 Noise-Power Trade-off 224
7.4.5 Effect of Frequency Division and Multiplication on Phase Noise 224
7.4.6 Oscillator Pulling and Pushing 225
7.5 Bipolar and CMOS LC Oscillators 227
7.5.1 Negative-Gm Oscillators 227
7.5.2 Interpolative Oscillators 231
7.6 Monolithic Inductors 233
7.7 Resonatorless VCOs 235
7.8 Quadrature Signal Generation 236
7.8.1 RC-CR Network 236
7.8.2 Havens' Technique 239
7.8.3 Frequency Division 243
7.9 Single-Sideband Generation 243
References 244
8 Frequency Synthesizers
8.1 General Considerations 247
8.2 Phase-Locked Loops 249
8.2.1 Basic Concepts 249
8.2.2 Basic PLL 252
8.2.3 Charge-Pump PLLs 258
8.2.4 Type I and Type II PLLs 265
8.2.5 Noise in PLLs 266
8.2.6 Phase Noise at Input 266
8.2.7 Phase Noise of VCO 267
8.2.8 Frequency Multiplication 269
8.3 RF Synthesizer Architectures 269
8.3.1 Integer-N Architecture 270
8.3.2 Fractional-N Architecture 277
8.3.3 Dual-Loop Architectures 284
8.3.4 Direct Digital Synthesis 285
8.4 Frequency Dividers 290
8.4.1 Divide-by-Two Circuits 290
8.4.2 Dual-Modulus Dividers 293
References 296
9 Power Amplifiers
9.1 General Considerations 298
9.1.1 Linear and Nonlinear PAs 301
9.2 Classification of Power Amplifiers 301
9.2.1 Class A and B PAs 302
9.2.2 Class C PAs 305
9.3 High-Efficiency Power Amplifiers 306
9.4 Large-Signal Impedance Matching 310
9.5 Linearization Techniques 313
9.5.1 Feedforward 314
9.5.2 Feedback 315
9.5.3 Envelope Elimination and Restoration 317
9.5.4 LINC 318
9.6 Design Examples 320
References 323
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