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Other titles in the Oxford Series in Electrical and Computer Engineering series:
Design of Analog Filters 2nd Edition (Oxford Series in Electrical and Computer Engineering)by Rolf Schaumann
Synopses & Reviews
Ideal for advanced undergraduate and first-year graduate courses in analog filter design and signal processing, Design of Analog Filters integrates theory and practice in order to provide a modern and practical "how-to" approach to design. A complete revision of Mac E. Van Valkenburg's classic work, Analog Filter Design (1982), this text builds on the presentation and style of its predecessor, updating it to meet the needs of today's engineering students and practicing engineers. Reflecting recent developments in the field and emphasizing intuitive understanding, it provides students with an up-to-date introduction and design guidelines and also helps them to develop a "feel" for analog circuit behavior.
Design of Analog Filters, Second Edition, moves beyond the elementary treatment of active filters built with opamps. The book discusses fundamental concepts; opamps; first- and second-order filters; second-order filters with arbitrary transmission zeros; filters with maximally flat magnitude, with equal ripple (Chebyshev) magnitude, and with inverse Chebyshev and Cauer response functions; frequency transformation; cascade designs; delay filters and delay equalization; sensitivity; LC ladder filters; ladder simulations by element replacement and by operational simulation; in addition, high-frequency filters based on transconductance-C concepts and on designs using spiral inductors are covered; as are switched-capacitor filters, and noise issues.
* Includes a wealth of examples, all of which have been tested on simulators or in actual industrial use
* Uses the very easy-to-use and learn program Electronics Workbench to help students simulate actual experimental behavior
* Provides sample design tables and design and performance curves
* Avoids sophisticated mathematics wherever possible in favor of algebraic or intuitive derivations
* Addresses practical and realistic design
About the Author
Rolf Schaumann received the Diplom-Ingenieur degree from the University of Stuttgart, Germany, in 1967 and the Ph.D. degree from the University of Minnesota, Minneapolis, in 1970. He was on the faculty of the Department of Electrical Engineering of the University of Minnesota from 1970 until 1988. In 1989, he was appointed Professor and Chairman of the Department of Electrical and Computer Engineering at Portland State University, Portland, Oregon, a position he held until 1999, and where he is now Professor Emeritus. His research interests are in circuits and systems, analog integrated circuits and filters. He authored or co-authored some 150 publications and 10 invited chapters. He was co-editor of Modern Active Filter Design, IEEE Press, 1981, and is co-author of Analog Filters: Passive LC, Active RC and Switched Capacitor, Prentice-Hall, 1990, and Design of Analog Filters, Oxford University Press, 2001. Dr. Schaumann was an Associate Editor and the Editor-in-Chief of the IEEE Transactions on Circuits and Systems (CAS). He served on the Board of Governors of the CAS Society, was CAS Vice President for Publications in 1988/9, and in 1990 was President of the CAS Society. He received the Golden Jubilee Medal from the CAS Society and the Millennium Medal from the IEEE. He is a Life Fellow of the IEEE.
Haiqiao Xiao received Ph.D from Portland State University in 2008, Dr. Eng. from Peking University in 1999, M.S. and B.S. from Northern Jiaotong University in 1995 and 1992, respectively. He has been working for Cypress Semiconductors and Teradyne Inc. for more than 4 years in the area of RF and high-speed analog circuit design. Previously he has been working for Beijing Open Lab (BOL), Inc. and Nohau Corp. from 1995 to 2000 in embedded systems. His research interests include analog/RF circuits for wired and wireless communications, high-frequency active filters and oscillators. He has 4 patents and 13 publications.
Table of Contents
2. Operational Amplifiers
3. First - order Filters: Bilinear Transfer Functions and Frequency Response
4. Second - Order Lowpass and Bandpass Filters
5. Second - Order Filters with Arbitrary Transmission Zeros
6. Lowpass filters with maximally flat magnitude
7. Lowpass Filters with Equal - Ripple (Chebyshev) Magnitude Response
8. Inverse Chebyshev and Cauer Filters
9. Frequency Transformation
10. Delay Filters
11. Delay Equalization
13. LC Ladder Filters
14. Ladder Simulations by Element Replacement
15. Operational Simulation of Ladders
16. High - Frequency Filters
17. Switched - Capacitor Filters
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