RF Circuit Design
(Sprache: Englisch)
This revised edition immerses practicing and aspiring industry professionals in the complex world of RF design.
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This revised edition immerses practicing and aspiring industry professionals in the complex world of RF design.
Klappentext zu „RF Circuit Design “
Summarizes the schemes and technologies in RF circuit design, describes the basic parameters of an RF system and the fundamentals of RF system design, and presents an introduction of the individual RF circuit block design.Forming the backbone of today's mobile and satellite communications networks, radio frequency (RF) components and circuits are incorporated into everything that transmits or receives a radio wave, such as mobile phones, radio, WiFi, and walkie talkies. RF Circuit Design, Second Edition immerses practicing and aspiring industry professionals in the complex world of RF design.
Completely restructured and reorganized with new content, end-of-chapter exercises, illustrations, and an appendix, the book presents integral information in three complete sections:
Part One explains the different methodologies between RF and digital circuit design and covers voltage and power transportation, impedance matching in narrow-band case and wide-band case, gain of a raw device, measurement, and grounding. It also goes over equipotentiality and current coupling on ground surface, as well as layout and packaging, manufacturability of product design, and radio frequency integrated circuit (RFIC).
Part Two includes content on the main parameters and system analysis in RF circuit design, the fundamentals of differential pair and common-mode rejection ratio (CMRR), Balun, and system-on-a-chip (SOC).
Part Three covers low-noise amplifier (LNA), power amplifier (PA), voltage-controlled oscillator (VCO), mixers, and tunable filters.
RF Circuit Design, Second Edition is an ideal book for engineers and managers who work in RF circuit design and for courses in electrical or electronic engineering.
Inhaltsverzeichnis zu „RF Circuit Design “
PREFACE TO THE SECOND EDITION xixPART 1 DESIGN TECHNOLOGIES AND SKILLS 1
1 DIFFERENCE BETWEEN RF AND DIGITAL CIRCUIT DESIGN 3
1.1 Controversy 3
1.2 Difference of RF and Digital Block in a Communication System 6
1.3 Conclusions 9
1.4 Notes for High-Speed Digital Circuit Design 9
Further Reading 10
Exercises 11
Answers 11
2 REFLECTION AND SELF-INTERFERENCE 15
2.1 Introduction 15
2.2 Voltage Delivered from a Source to a Load 16
2.3 Power Delivered from a Source to a Load 23
2.4 Impedance Conjugate Matching 33
2.5 Additional Effect of Impedance Matching 42
Appendices 51
2.A.1 VSWR and Other Reflection and Transmission Coefficients 51
2.A.2 Relationships between Power (dBm), Voltage (V), and Power (W) 58
Reference 58
Further Reading 58
Exercises 59
Answers 59
3 IMPEDANCE MATCHING IN THE NARROW-BAND CASE 61
3.1 Introduction 61
3.2 Impedance Matching by Means of Return Loss Adjustment 63
3.3 Impedance Matching Network Built by One Part 68
3.4 Impedance Matching Network Built by Two Parts 74
3.5 Impedance Matching Network Built By Three Parts 84
3.6 Impedance Matching When ZS Or ZL Is Not 50 85
3.7 Parts In An Impedance Matching Network 93
Appendices 94
3.A.1 Fundamentals of the Smith Chart 94
3.A.2 Formula for Two-Part Impedance Matching Network 99
3.A.3 Topology Limitations of the Two-Part Impedance Matching Network 110
3.A.4 Topology Limitation of Three Parts Impedance Matching Network 114
3.A.5 Conversion between and T Type Matching Network 122
3.A.6 Possible and T Impedance Matching Networks 124
Reference 124
Further Reading 124
Exercises 125
Answers 127
4 IMPEDANCE MATCHING IN THE WIDEBAND CASE
... mehr
131
4.1 Appearance of Narrow and Wideband Return Loss on a Smith Chart 131
4.2 Impedance Variation Due to the Insertion of One Part Per Arm or Per Branch 136
4.3 Impedance Variation Due to the Insertion of Two Parts Per Arm or Per Branch 145
4.4 Partial Impedance Matching for an IQ (in Phase Quadrature) Modulator in a UWB (Ultra Wide Band) System 151
4.5 Discussion of Passive Wideband Impedance Matching Network 174
Further Reading 179
Exercises 179
Answers 180
5 IMPEDANCE AND GAIN OF A RAW DEVICE 181
5.1 Introduction 181
5.2 Miller Effect 183
5.3 Small-Signal Model of a Bipolar Transistor 187
5.4 Bipolar Transistor with CE (Common Emitter) Configuration 190
5.5 Bipolar Transistor with CB (Common Base) Configuration 204
5.6 Bipolar Transistor with CC (Common Collector) Configuration 214
5.7 Small-Signal Model of a MOSFET 221
5.8 Similarity Between a Bipolar Transistor and a MOSFET 225
5.9 MOSFET with CS (Common Source) Configuration 235
5.10 MOSFET with CG (Common Gate) Configuration 244
5.11 MOSFET with CD (Common Drain) Configuration 249
5.12 Comparison of Transistor Configuration of Single-stage Amplifiers with Different Configurations 252
Further Reading 256
Exercises 256
Answers 256
6 IMPEDANCE MEASUREMENT 259
6.1 Introduction 259
6.2 Scalar and Vector Voltage Measurement 260
6.3 Direct Impedance Measurement by a Network Analyzer 263
6.4 Alternative Impedance Measurement by Network Analyzer 272
6.5 Impeda
4.1 Appearance of Narrow and Wideband Return Loss on a Smith Chart 131
4.2 Impedance Variation Due to the Insertion of One Part Per Arm or Per Branch 136
4.3 Impedance Variation Due to the Insertion of Two Parts Per Arm or Per Branch 145
4.4 Partial Impedance Matching for an IQ (in Phase Quadrature) Modulator in a UWB (Ultra Wide Band) System 151
4.5 Discussion of Passive Wideband Impedance Matching Network 174
Further Reading 179
Exercises 179
Answers 180
5 IMPEDANCE AND GAIN OF A RAW DEVICE 181
5.1 Introduction 181
5.2 Miller Effect 183
5.3 Small-Signal Model of a Bipolar Transistor 187
5.4 Bipolar Transistor with CE (Common Emitter) Configuration 190
5.5 Bipolar Transistor with CB (Common Base) Configuration 204
5.6 Bipolar Transistor with CC (Common Collector) Configuration 214
5.7 Small-Signal Model of a MOSFET 221
5.8 Similarity Between a Bipolar Transistor and a MOSFET 225
5.9 MOSFET with CS (Common Source) Configuration 235
5.10 MOSFET with CG (Common Gate) Configuration 244
5.11 MOSFET with CD (Common Drain) Configuration 249
5.12 Comparison of Transistor Configuration of Single-stage Amplifiers with Different Configurations 252
Further Reading 256
Exercises 256
Answers 256
6 IMPEDANCE MEASUREMENT 259
6.1 Introduction 259
6.2 Scalar and Vector Voltage Measurement 260
6.3 Direct Impedance Measurement by a Network Analyzer 263
6.4 Alternative Impedance Measurement by Network Analyzer 272
6.5 Impeda
... weniger
Autoren-Porträt von Richard C. Li
RICHARD CHI-HSI LI has more than twenty years experience with RF circuit design and has worked for companies such as Motorola, Texas Instruments, and RCA. Professor Li has taught many courses and given more than sixty lectures on RF circuit design in recent years.
Bibliographische Angaben
- Autor: Richard C. Li
- 2012, 2. Aufl., 896 Seiten, mit Abbildungen, Maße: 18,3 x 26 cm, Gebunden, Englisch
- Verlag: Wiley & Sons
- ISBN-10: 1118128494
- ISBN-13: 9781118128497
- Erscheinungsdatum: 01.10.2012
Sprache:
Englisch
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