A transistor-level, design-intensive overview of high speed and high frequency monolithic integrated circuits for wireless and broadband systems from 2 GHz to 200 GHz, this comprehensive text covers high-speed, RF, mm-wave, and optical fibre circuits using nanoscale CMOS, SiGe BiCMOS, and III-V technologies. Step-by-step design methodologies, end-of chapter problems, and practical simulation and design projects are provided, making this an ideal resource for senior undergraduate and graduate courses in circuit design. With an emphasis on device-circuit topology interaction and optimization, it gives circuit designers and students alike an in-depth understanding of device structures and process limitations affecting circuit performance.
Table of Contents
Chapter 1 Introduction
Chapter 2 High-frequency and high-data-rate communication systems
Chapter 3 High-frequency linear noisy network analysis
Chapter 4 High-frequency devices
Chapter 5 Circuit analysis techniques for high-frequency integrated circuits
Chapter 6 Tuned power amplifier design
Chapter 7 Low-noise tuned amplifier design
Chapter 8 Broadband low-noise and transimpedance amplifiers
Chapter 9 Mixers, switches, modulators, and other control circuits
Chapter 10 Design of voltage-controlled oscillators
Chapter 11 High-speed digital logic
Chapter 12 High-speed digital output drivers with waveshape control
Chapter 13 SoC examples
Appendix 1 Trigonometric identities
Appendix 2 Baseband binary data formats and analysis
Appendix 3 Linear matrix transformations
Appendix 4 Fourier series
Appendix 5 Exact noise analysis for a cascode amplifier with inductive degeneration
Appendix 6 Noise analysis of the common-emitter amplifier with transformer feedback
Appendix 7 Common-source amplifier with shunt-series transformer feedback
Appendix 8 HiCUM level 0 model for a SiGe HBT
Appendix 9 Technology parameters
Appendix 10 Analytical study of oscillator phase noise
Appendix 11 Physical constants
Appendix 12 Letter frequency
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