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本帖最后由 angelweishan 于 2010-6-3 10:54 编辑
ebook: Wideband Low Noise Amplifiers Exploiting Thermal Noise Cancellation
Only 1 rar file
(The Springer International Series in Engineering and Computer Science)
~ Federico Bruccoleri (Author), Eric Klumperink (Author), Bram Nauta (Author)
Amazon
http://www.amazon.com/Amplifiers-Exploiting-Cancellation-International-Engineering/dp/1402031874/ref=sr_1_1?ie=UTF8&s=books&qid=1275217399&sr=1-1
Hardcover: 182 pages
Publisher: Springer; 1 edition (May 4, 2005)
Language: English
Contents
Chapter 1: Introduction
1.1 Introduction 1
1.2 Motivations 3
1.3 Outline 5
1.4 References 6
Chapter 2: Systematic Generation of All Elementary Wide-Band Amplifiers
2.1 Introduction 7
2.2 The Systematic Generation Methodology 8
2.2.1 2VCCS graph database: generation and properties 8
2.3 Functional Selection of All Elementary Wide-band Amplifiers 10
2.3.1 STEP1: Source/Load impedance and functional requirements 12
2.3.2 STEP2: Constraints on the two-port {A, B, C, D} parameters 14
2.3.3 STEP3: 2VCCS graphs database exploration 17
2.3.4 STEP4: Transistor circuits implementation 18
2.4 Conclusions 22
2.5 References 22
Chapter 3: 2-MOST Amplifiers: Analysis and Design
3.1 Introduction 24
3.2 Modelling for Hand Calculations 25
3.3 Two-port Noise Factor F 25
3.4 Amplifiers Performance Analysis 28
3.4.1 Small-signal transfers: ZIN, ZOUT, AVF and AVR 28
3.4.2 Noise factor 29
3.5 Design Example: a 50-900MHz Variable Gain LNA 32
3.5.1 Bandwidth 34
3.5.2 Noise factor 37
3.6 Design 38
3.7 Measurements 43
3.8 Conclusions 49
3.9 References 50
Chapter 4: Wide-Band Low-Noise Techniques
4.1 Introduction 51
4.2 Noise Factor Considerations 51
4.3 F to Impedance Matching Trade-off in Elementary Wide-band LNAs 54
4.4 Working Around the Trade-off 56
4.5 Breaking the Trade-off via Negative Feedback 59
4.6 The Noise Cancelling Technique 65
4.6.1 Breaking the 1+NEF barrier 68
4.6.2 Noise cancelling generalisation 69
4.6.3 Intuitive analysis of noise cancelling 74
4.7 Comparison of Noise-Cancelling LNAs 78
4.7.1 Noise factor versus device gm2·RS 78
4.7.2 Noise factor versus power consumption 80
4.7.3 Noise factor versus power consumption with biasing noise 83
4.8 Noise Cancelling Properties 85
4.8.1 Robustness 85
4.8.2 Simultaneous noise and power matching 87
4.8.3 Distortion cancelling 90
4.9 High-Frequency Limitations to Noise and Distortion Cancelling 96
4.9.1 Noise 96
4.9.2 Distortion 103
4.9.3 Frequency compensation 107
4.10 Summary and Conclusions 114
4.11 References 118
Chapter 5: Design of a Decade Bandwidth Noise Cancelling CMOS LNA
5.1 Introduction 120
5.2 Design Requirements and LNA Schematic 120
5.3 Analysis of the Noise Factor and Bandwidth 121
5.3.1 F for in-band frequencies 122
5.3.2 F at high frequencies 126
5.3.3 Bandwidth 130
5.4 LNA Design: NF at Minimum Power Dissipation 133
5.5 Validation of the Design Procedure 134
5.6 Final Design 137
5.7 Measurements 141
5.8 Summary and Conclusions 145
5.9 References 145
Chapter 6: Summary and Conclusions
6.1 Summary and Conclusions 147
6.2 References 156
Appendix A: Two-port Amplifiers Stability and {A, B, C, D} Parameters 157
Appendix B: Biasing noise in Noise-cancelling Amplifiers 159
Appendix C: Two-port Amplifiers Noise and Power Matching 162
Appendix D: All 1- and 2-VCCS Graphs 165
Index 178
Author Biographies 180 |
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发表于 2010-5-30 18:58:15
