A transistor-level, design-intensive overview of high speed and high frequency integrated circuits for wireless and broadband systems. Covering layout techniques to maximize device and circuit performance and including step-by-step design methodologies and practical simulation and design projects, this comprehensive guide is an ideal resource for students and practitioners alike.
A transistor-level, design-intensive overview of high speed and high frequency integrated circuits for wireless and broadband systems. Covering layout techniques to maximize device and circuit performance and including step-by-step design methodologies and practical simulation and design projects, this comprehensive guide is an ideal resource for students and practitioners alike.Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Sorin Voinigescu is a Professor at the University of Toronto, where his research and teaching interests focus on nano-scale semiconductor devices and their application in integrated circuits at frequencies beyond 300 GHz. The co-founder of Quake Technologies, Inc., he was a recipient of the Best Paper Award at the 2001 IEEE Custom Integrated Circuits Conference, 2005 IEEE Compound Semiconductor IC Symposium (CSICS) and of the Beatrice Winner Award at the 2008 IEEE International Solid State Circuits Conference (ISSCC). His students have won Student Paper Awards at the 2004 VLSI Circuits Symposium, the 2006 RFIC Symposium and at the 2008 International Microwave Symposium.
Inhaltsangabe
1. Introduction 2. High-frequency and high-data-rate communication systems 3. High-frequency linear noisy network analysis 4. High-frequency devices 5. Circuit analysis techniques for high-frequency integrated circuits 6. Tuned power amplifier design 7. Low-noise tuned amplifier design 8. Broadband low-noise and transimpedance amplifiers 9. Mixers, switches, modulators, and other control circuits 10. Design of voltage-controlled oscillators 11. High-speed digital logic 12. High-speed digital output drivers with waveshape control 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 bands Index.
1. Introduction 2. High-frequency and high-data-rate communication systems 3. High-frequency linear noisy network analysis 4. High-frequency devices 5. Circuit analysis techniques for high-frequency integrated circuits 6. Tuned power amplifier design 7. Low-noise tuned amplifier design 8. Broadband low-noise and transimpedance amplifiers 9. Mixers, switches, modulators, and other control circuits 10. Design of voltage-controlled oscillators 11. High-speed digital logic 12. High-speed digital output drivers with waveshape control 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 bands Index.
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