Handbook of RF/Microwave Components and Engineering
2nd Edition
Published on 13. October 2003
Book
Hardback
1824 pages
978-0-471-39056-5 (ISBN)
Description
The most comprehensive treatment to appear in book form.
* Covers all-important components in microwave technology.
* Provides a wealth of essential principles, methods, design information and references for today's complex and rapidly changing field of high frequency engineering.
* The handbook editor is a well-known researcher, author, journal and book editor.
* Contributors are all leading researchers and practitioners.
* Covers all-important components in microwave technology.
* Provides a wealth of essential principles, methods, design information and references for today's complex and rapidly changing field of high frequency engineering.
* The handbook editor is a well-known researcher, author, journal and book editor.
* Contributors are all leading researchers and practitioners.
More details
Edition
2., Auflage
Language
English
Place of publication
New York
United States
Publishing group
John Wiley and Sons Ltd
Target group
Professional and scholarly
Edition type
New edition
Illustrations
Illustrations
Dimensions
Height: 26 cm
Width: 18.8 cm
Thickness: 5.7 cm
Weight
2013 gr
ISBN-13
978-0-471-39056-5 (9780471390565)
Schweitzer Classification
Person
KAI CHANG is a professor in the Electrical Engineering Department of Texas A&M University where he teaches and performs research in microwave devices and circuits. Previously he was a section head at TRW, Inc. where he was responsible for millimeter-wave integrated circuit component and subsystem development. Prior to this, Dr. Chang was a supervisor at Hughes Aircraft Company, where he was involved in the development of microwave circuits, millimeter-wave oscillators, and power combiners. Dr. Chang is the author of a number of book chapters and has published over 90 technical papers on microwave circuits, components, and subsystems. He earned his PhD in electrical engineering at the University of Michigan.
Content
Preface.
Contributors.
1. Transmission Lines (I. Bahl).
2. Transmission-Line Discontinuities (K. Gupta).
3. Filters, Hybrids and Couplers, Power Combiners, and Matching Networks (I. Bahl).
4. Cavities and Resonators (M. Dydyk).
5. Ferrite Control Components (W. Hord).
6. Surface Acoustic Wave Devices (D. Morgan).
7. Quasi-Optical Techniques (P. Goldsmith, et al.).
8. Components for Surveillance and Electronic Receivers (J. Tsui & C. Krueger).
9. Antennas I: Fundamentals and Numerical Methods (F. Schwering, et al.).
10. Antennas II: Reflector, Lens, Horns, and Other Microwave Antennas of Conventional Configuration (D. Bodnar, et al.).
11. Antennas III: Array, Millimeter Wave, and Integrated Antennas (R. Mailloux, et al.).
12. Antennas IV: Microstrip Antennas (Y. Lo, et al.).
13. Antennas V: Active Integrated Antennas (J. Fredrick & T. Itoh).
14. Mixers and Detectors (E. Kollberg).
15. Multipliers and Parametric Devices (J. Archer & R. Batchelor).
16. Semiconductor Control Devices: PIN Diodes (J. White).
17. Semiconductor Control Devices: Phase Shifters and Switches (A. Sreenivas).
18. Transferred Electron Devices (C. Sun).
19. IMPATT and Related Transit-Time Devices (K. Chang & H. Kuno).
20. Microwave Silicon Bipolar Transistors and Monolithic Integrated Circuits (C. Snapp).
21. FETs: Power Applications (H. Hung).
22. FETs: Low-Noise Applications (T. Midford).
23. High-Electron-Mobility Transistors: Principles and Applications (J. Zimmermann & G. Salmer).
24. Heterojunction Bipolar Transistors and Applications (J. Yuan).
25. Oscillators and Frequency Synthesizers (U. Rohde).
26. RF Components (V. Nair).
27. Microwave Superconductors (C. Sans & G. Liang).
28. Microwave MEMS and Micromachining (H. De Los Santos, et al.).
Index.
Contributors.
1. Transmission Lines (I. Bahl).
2. Transmission-Line Discontinuities (K. Gupta).
3. Filters, Hybrids and Couplers, Power Combiners, and Matching Networks (I. Bahl).
4. Cavities and Resonators (M. Dydyk).
5. Ferrite Control Components (W. Hord).
6. Surface Acoustic Wave Devices (D. Morgan).
7. Quasi-Optical Techniques (P. Goldsmith, et al.).
8. Components for Surveillance and Electronic Receivers (J. Tsui & C. Krueger).
9. Antennas I: Fundamentals and Numerical Methods (F. Schwering, et al.).
10. Antennas II: Reflector, Lens, Horns, and Other Microwave Antennas of Conventional Configuration (D. Bodnar, et al.).
11. Antennas III: Array, Millimeter Wave, and Integrated Antennas (R. Mailloux, et al.).
12. Antennas IV: Microstrip Antennas (Y. Lo, et al.).
13. Antennas V: Active Integrated Antennas (J. Fredrick & T. Itoh).
14. Mixers and Detectors (E. Kollberg).
15. Multipliers and Parametric Devices (J. Archer & R. Batchelor).
16. Semiconductor Control Devices: PIN Diodes (J. White).
17. Semiconductor Control Devices: Phase Shifters and Switches (A. Sreenivas).
18. Transferred Electron Devices (C. Sun).
19. IMPATT and Related Transit-Time Devices (K. Chang & H. Kuno).
20. Microwave Silicon Bipolar Transistors and Monolithic Integrated Circuits (C. Snapp).
21. FETs: Power Applications (H. Hung).
22. FETs: Low-Noise Applications (T. Midford).
23. High-Electron-Mobility Transistors: Principles and Applications (J. Zimmermann & G. Salmer).
24. Heterojunction Bipolar Transistors and Applications (J. Yuan).
25. Oscillators and Frequency Synthesizers (U. Rohde).
26. RF Components (V. Nair).
27. Microwave Superconductors (C. Sans & G. Liang).
28. Microwave MEMS and Micromachining (H. De Los Santos, et al.).
Index.