Electronic Filter Design Handbook, Fourth Edition
by Williams, Arthur; Taylor, FredEdition: 4th
Format: Hardcover
Pub. Date: 2006-07-31
Publisher(s): McGraw-Hill Education
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Summary
Packed with 200 detailed illustrations, the Fourth Edition features: Expert coverage of the full range of filter designs, including LC, active, switched-capacitor, and digital filters A CD with powerful Excel worksheets that perform calculations from just a few data inputs, and executable programs that generate designs directly Sophisticated guidelines for selecting state-of-the-art components to ensure working designs A wealth of helpful examples, presented in MATLAB
Author Biography
b>Arthur Williams has held the position of Chief Scientist at Telebyte Inc. since May of 2002. Telebyte is a developer of broadband simulation and test equipment. Prior to this position he was a Senior Staff Engineer and Manager of Engineering for Tellabs Inc. since 1998. From 1972 through 1998 he was Vice President Research and Development and Director of Conference Products for Coherent Communications Systems Inc. He has a Bachelor of Science degree in Electrical Engineering from the New York Institute of Technology, and did graduate work at New York Polytech. He has served as a consultant to industry and is currently Chairman of the IEEE Circuits and Systems (CAS) chapter in Long Island, New York.
Dr. Fred J. Taylor is a Fellow of the IEEE and has a Ph.D. degree form the University of Colorado. He has been a Member of the Technical Staff of Texas Instruments Corp. (1969/70) and has held academic positions at the University of Texas at El Paso (1970/75), University of Cincinnati (1975/83), and the University of Florida since 1983, where he is currently a professor of Electrical and Computer Engineering (ECE) and Computer and Information Science Engineering (CISE). He has held visiting faculty positions at Southern Methodist University (SMU), CNAM (Paris), and THD (Darmstadt) and has chaired or co-chaired a number of prestigious technical conferences (IEEE ICASS, IEEE ICASSP, Asilomar). He serves as a consultant to a number of Fortune 500 companies as well as government agencies. He has authored ten textbooks, twelve-chapter contributions for handbooks and encyclopedias in the field of signal processing, holds three U.S. patents, and has authored over 100 archived journal articles.
Table of Contents
Chapter 1: Introduction to Modern Network TheoryChapter 2: Selecting the Response CharacteristicChapter 3: Low Pass Filter DesignChapter 4: High Pass Filter DesignChapter 5: Bandpass Filter DesignChapter 6: Band Reject FilterChapter 7: Networks for the Time DomainChapter 8: Refinements in LC Filter DesignChapter 9: Design of Magnetic ComponentsChapter 10: Component Selection for LC and Active FiltersChapter 11: Normalized Filter Design TablesChapter 12: Introduction to Digital FiltersChapter 13: Finite Impulse Response FiltersChapter 14: Multi-rate FiltersChapter 15: Infinite Impulse Response FiltersChapter 16: Filter ArchitectureChapter 17: Digital Filter TechnologyChapter 18: Filter Design for EMI SuppressionAppendix: Discrete Systems Mathematics
Chapter 3: Low Pass Filter DesignChapter 4: High Pass Filter DesignChapter 5: Bandpass Filter DesignChapter 6: Band Reject FilterChapter 7: Networks for the Time DomainChapter 8: Refinements in LC Filter DesignChapter 9: Design of Magnetic ComponentsChapter 10: Component Selection for LC and Active FiltersChapter 11: Normalized Filter Design TablesChapter 12: Introduction to Digital FiltersChapter 13: Finite Impulse Response FiltersChapter 14: Multi-rate FiltersChapter 15: Infinite Impulse Response FiltersChapter 16: Filter ArchitectureChapter 17: Digital Filter TechnologyChapter 18: Filter Design for EMI SuppressionAppendix: Discrete Systems Mathematics
Chapter 5: Bandpass Filter DesignChapter 6: Band Reject FilterChapter 7: Networks for the Time DomainChapter 8: Refinements in LC Filter DesignChapter 9: Design of Magnetic ComponentsChapter 10: Component Selection for LC and Active FiltersChapter 11: Normalized Filter Design TablesChapter 12: Introduction to Digital FiltersChapter 13: Finite Impulse Response FiltersChapter 14: Multi-rate FiltersChapter 15: Infinite Impulse Response FiltersChapter 16: Filter ArchitectureChapter 17: Digital Filter TechnologyChapter 18: Filter Design for EMI SuppressionAppendix: Discrete Systems Mathematics
Chapter 7: Networks for the Time DomainChapter 8: Refinements in LC Filter DesignChapter 9: Design of Magnetic ComponentsChapter 10: Component Selection for LC and Active FiltersChapter 11: Normalized Filter Design TablesChapter 12: Introduction to Digital FiltersChapter 13: Finite Impulse Response FiltersChapter 14: Multi-rate FiltersChapter 15: Infinite Impulse Response FiltersChapter 16: Filter ArchitectureChapter 17: Digital Filter TechnologyChapter 18: Filter Design for EMI SuppressionAppendix: Discrete Systems Mathematics
Chapter 9: Design of Magnetic ComponentsChapter 10: Component Selection for LC and Active FiltersChapter 11: Normalized Filter Design TablesChapter 12: Introduction to Digital FiltersChapter 13: Finite Impulse Response FiltersChapter 14: Multi-rate FiltersChapter 15: Infinite Impulse Response FiltersChapter 16: Filter ArchitectureChapter 17: Digital Filter TechnologyChapter 18: Filter Design for EMI SuppressionAppendix: Discrete Systems Mathematics
Chapter 11: Normalized Filter Design TablesChapter 12: Introduction to Digital FiltersChapter 13: Finite Impulse Response FiltersChapter 14: Multi-rate FiltersChapter 15: Infinite Impulse Response FiltersChapter 16: Filter ArchitectureChapter 17: Digital Filter TechnologyChapter 18: Filter Design for EMI SuppressionAppendix: Discrete Systems Mathematics
Chapter 13: Finite Impulse Response FiltersChapter 14: Multi-rate FiltersChapter 15: Infinite Impulse Response FiltersChapter 16: Filter ArchitectureChapter 17: Digital Filter TechnologyChapter 18: Filter Design for EMI SuppressionAppendix: Discrete Systems Mathematics
Chapter 15: Infinite Impulse Response FiltersChapter 16: Filter ArchitectureChapter 17: Digital Filter TechnologyChapter 18: Filter Design for EMI SuppressionAppendix: Discrete Systems Mathematics
Chapter 17: Digital Filter TechnologyChapter 18: Filter Design for EMI SuppressionAppendix: Discrete Systems Mathematics
Appendix: Discrete Systems Mathematics
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