Analog Filter and Circuit Design Handbook

by: Arthur B. Williams
Abstract: Cutting-edge techniques for designing analog filters and circuits. With an emphasis on using operational amplifiers as key building blocks, Analog Filter and Circuit Design Handbook shows how to create working circuits that perform a variety of analog functions. Numerous circuit examples provide mathematical functions on analog signals in both a linear and nonlinear manner. The highly efficient elliptic-function filter response is featured throughout the book. Audio applications, such as audio power amplifiers and cross-over networks, are discussed, and both voltage and current feedback amplifiers are covered. This practical guide also analyzes the impact of nonideal amplifiers and addresses waveform shaping and generation.
Full details
Table of Contents
- A. Dedication
- B. Preface
- 1. Introduction to Modern Network Theory
- 2. Selecting the Response Characteristic
- 3. Low-Pass Filter Design
- 4. High-Pass Filter Design
- 5. Band-Pass Filters
- 6. Band-Reject Filters
- 7. Networks for the Time Domain
- 8. Refinements in LC Filter Design and the Use of Resistive Networks
- 9. Component Selection for LC and Active Filters
- 10. Normalized Filter Design Tables
- 11. Switched-Capacitor Filters
- 12. Adjustable and Fixed Delay and Amplitude Equalizers
- 13. Voltage Feedback Operational Amplifiers
- 14. Linear Amplifier Applications
- 15. Nonlinear Circuits
- 16. Waveform Shaping
- 17. Waveform Generation
- 18. Current Feedback Amplifiers
- 19. Large Signal Amplifiers
- A. Software Download and Errata
Tools & Media
Expanded Table of Contents
- A. Dedication
- B. Preface
- 1. Introduction to Modern Network Theory
- 2. Selecting the Response Characteristic
- Frequency-Response Normalization
- Transient Response
- Butterworth Maximally Flat Amplitude
- Chebyshev Response
- Bessel Maximally Flat Delay
- Linear Phase with Equiripple Error
- Transitional Filters
- Synchronously Tuned Filters
- Elliptic-Function Filters
- Maximally Flat Delay With Chebyshev Stopband
- Papoulis Optimum "L" Filter
- References
- 3. Low-Pass Filter Design
- 4. High-Pass Filter Design
- 5. Band-Pass Filters
- 6. Band-Reject Filters
- 7. Networks for the Time Domain
- 8. Refinements in LC Filter Design and the Use of Resistive Networks
- Introduction
- Tapped Inductors
- Circuit Transformations
- Designing with Parasitic Capacitance
- Amplitude Equalization for Inadequate Q
- Coil-Saving Elliptic-Function Band-Pass Filters
- Filter Tuning Methods
- Measurement Methods
- Designing For Unequal Impedances
- Symmetrical Attenuators
- Power Splitters
- Introduction of Transmission Zeros to an Existing Design
- References
- 9. Component Selection for LC and Active Filters
- 10. Normalized Filter Design Tables
- 11. Switched-Capacitor Filters
- 12. Adjustable and Fixed Delay and Amplitude Equalizers
- 13. Voltage Feedback Operational Amplifiers
- 14. Linear Amplifier Applications
- 15. Nonlinear Circuits
- 16. Waveform Shaping
- 17. Waveform Generation
- 18. Current Feedback Amplifiers
- 19. Large Signal Amplifiers
- A. Software Download and Errata
Book Details
Title: Analog Filter and Circuit Design Handbook
Publisher: McGraw-Hill Education: New York, Chicago, San Francisco, Athens, London, Madrid, Mexico City, Milan, New Delhi, Singapore, Sydney, Toronto
Copyright / Pub. Date: 2014 McGraw-Hill Education
ISBN: 9780071816717
Authors:
Arthur B. Williams
has over 45 years experience designing filters and analog circuitry. He is the author of 8 books on filters and analog design. He is also the holder of numerous Patents. Mr. Williams has been past chairman of the IEEE Circuits and Systems Society (Long Island) and the recipient of the IEEE Award and Honoree, 2007 "For Lifetime Advancement of the Technology of Electronic Filter Design". He is Chief Scientist at Telebyte Inc. where he is involved in the design of test equipment for the telecommunications industry.
Description: Cutting-edge techniques for designing analog filters and circuits. With an emphasis on using operational amplifiers as key building blocks, Analog Filter and Circuit Design Handbook shows how to create working circuits that perform a variety of analog functions. Numerous circuit examples provide mathematical functions on analog signals in both a linear and nonlinear manner. The highly efficient elliptic-function filter response is featured throughout the book. Audio applications, such as audio power amplifiers and cross-over networks, are discussed, and both voltage and current feedback amplifiers are covered. This practical guide also analyzes the impact of nonideal amplifiers and addresses waveform shaping and generation.