Electrical and Computer Engineering implementation in commercial circuit simulators, and validation. The Cambridge RF and Microwave Engineering Series
2008 247 x 174 mm 288pp 978-0-521-88173-9 Hardback
£50.00
eBook available
www.cambridge.org/9780521881739
Forthcoming
Electromagnetic Band Gap Structures in Antenna Engineering Fan Yang The University of Mississippi
and Yahya Rahmat-Samii University of California, Los Angeles
Understand the state-of-the-art in EBG theory, analysis and applications with this authoritative survey, which includes a wealth of practical examples, and complete design details. A customized FDTD method of EBG analysis gives you a powerful computational engine for your EBG designs. The Cambridge RF and Microwave Engineering Series
2008 247 x 174 mm 280pp 33 b/w illus. 978-0-521-88991-9 Hardback £50.00 eBook available
www.cambridge.org/9780521889919
Phase Noise and Frequency Stability in Oscillators Enrico Rubiola FEMTO-ST Instititute, Université de Franche Comté, Besançon
Presenting a comprehensive account of oscillator phase-noise and frequency stability, this text uniquely includes numerous practical examples using actual measurements. The reverse engineering of oscillators based on phase-noise spectra is also covered, making this a useful reference for both academic researchers and industry practitioners in RF engineering and communications engineering. The Cambridge RF and Microwave Engineering Series
2008 247 x 174 mm 226pp 11 tables 978-0-521-88677-2 Hardback £55.00 www.cambridge.org/9780521886772
High-Frequency Integrated Circuits Sorin Voinigescu University of Toronto
A design-intensive overview of highspeed and high-frequency monolithic integrated circuits for wireless and broadband systems. Includes layout techniques to maximize both device and circuit performance, step-by-step
design methods for wireless and wireline circuit building blocks, and practical assignments and projects on RF or optical fiber circuits using nanoscale CMOS, SiGe BiCMOS and III-V technologies. Contents: 1. Introduction and overview; 2. RF and Optical fibre systems and IC figures of Merit; 3.High frequency linear noise 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 amplifier design; 9. Mixer design; 10. VCO design; 11. High speed CML/ECL logic design; 12. Output drivers with waveshape; 13. RF (Bi)CMOS IC technology; 14. SOC examples. The Cambridge RF and Microwave Engineering Series
2009 247 x 174 mm 700pp 978-0-521-87302-4 Hardback c. £55.00 www.cambridge.org/9780521873024
Forthcoming
Radio-Frequency Electronics Circuits and Applications Second edition Jon B. Hagen Cornell University, New York
This updated edition covers the fundamental principles applying to all radio devices. New chapters on radar, digital modulation, GPS navigation, and S-parameter circuit analysis, as well as additional worked examples and end-of-chapter problems, make the book ideal for graduate students as well as professional engineers. ‘This book is wonderfully informative, and refreshingly different from the usual rehash of standard engineering topics. Hagen has put his unique insights, gleaned from a lifetime of engineering and radio science, into this volume and it shows. There’s an insight per page, at least for me, that makes it truly enjoyable reading, even for those of us who think we know something about the field!’ Paul Horowitz, Harvard University
Contents: Preface; 1. Introduction; 2. Impedance matching; 3. Linear power amplifiers; 4. Basic filters; 5. Frequency converters; 6. Amplitude and frequency modulation; 7. Radio receivers; 8. Suppressed-carrier AM and quadrature AM (QAM); 9. Class-C, D, and E power RF amplifiers; 10. Transmission lines; 11. Oscillators; 12. Phase lock loops and synthesizers; 13. Coupled-resonator bandpass filters; 14. Transformers and baluns; 15. Hybrid couplers; 16. Waveguide circuits; 17. Small-signal RF amplifiers; 18. Demodulators and detectors;
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19. Television systems; 20. Antennas and radio wave propagation; 21. Radar systems; 22. Digital modulation techniques; 23. Modulation, noise, and information; 24. Amplifier and oscillator noise analysis; 25. The GPS navigation system; 26. Radio and radar astronomy; 27. Radio spectrometry; 28. S-parameter circuit analysis; 29. Power supplies; 30. RF test equipment; Index. 2009 246 x 189 mm 452pp 193 exercises 978-0-521-88974-2 Hardback £40.00 www.cambridge.org/9780521889742
RFID Technology and Applications Edited by Stephen B. Miles MIT Auto-ID Labs
Sanjay E. Sarma MIT Auto-ID Labs
and John R. Williams MIT Auto-ID Labs
Using specific industry examples the challenges, trends and key business questions in RFID development and implementation are addressed using insights from world-leading laboratories. For researchers, practitioners and managers in electrical engineering. MIT’s Auto-ID Labs Open Source code and tools for RFID implementation are available via www.cambridge.org/9780521880930. ‘RFID Technology and Applications is a high-level tour of RFID usage with enough depth to make it a very useful reference.’ IEEE Microwave Magazine 2008 247 x 174 mm 242pp 68 b/w illus. 978-0-521-88093-0 Hardback £60.00 eBook available
www.cambridge.org/9780521880930
Textbook
The Design of CMOS Radio-Frequency Integrated Circuits Second edition Thomas H. Lee Stanford University, California
An expanded and revised new edition of Tom Lee’s acclaimed guide to the design of gigahertz RF integrated circuits. 2004 253 x 177 mm 816pp 562 b/w illus. 30 tables 185 exercises 978-0-521-83539-8 Hardback £47.00 www.cambridge.org/9780521835398
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