Analog and Digital Filter Design.
Title:
Analog and Digital Filter Design.
Author:
Winder, Steve.
ISBN:
9780080488332
Personal Author:
Edition:
2nd ed.
Physical Description:
1 online resource (451 pages)
Series:
EDN Series for Design Engineers
Contents:
Front Cover -- ANALOG AND DIGITAL FILTER DESIGN -- Copyright Page -- Contents -- Preface -- Chapter 1. Introduction -- Fundamentals -- Analog Filters -- The Path to Analog Filter Design -- Digital Filters -- Digital Filter Types -- The Path to Digital Filter Design -- Exercises -- Chapter 2. Time and Frequency Response -- Filter Requirements -- The Time Domain -- Analog Filter Normalization -- Normalized Lowpass Responses -- Bessel Response -- Bessel Normalized Lowpass Filter Component Values -- Butterworth Response -- Butterworth Normalized Lowpass Component Values -- Normalized Component Values for RL >> RS or RL << RS -- Normalized Component Values for Source and Load Impedances within a Factor of Ten -- Chebyshev Response -- Normalized Component Values -- Equal Load Normalized Component Value Tables -- Normalized Element Values for Filters with RS = 0 or RS = infinite -- Inverse Chebyshev Response -- Component Values Normalized for 1 Rad/s Stopband -- Normalized 3dB Cutoff Frequencies and Passive Component Values -- Cauer Response -- Passive Cauer Filters -- Normalized Cauer Component Values -- The Cutoff Frequency -- References -- Exercises -- Chapter 3. Poles and Zeroes -- Frequency and Time Domain Relationship -- The S-Plane -- The Laplace Transform-Converting between Time and Frequency Domains -- First-Order Filters -- Pole and Zero Locations -- References -- Exercises -- Chapter 4. Analog Lowpass Filters -- Passive Filters -- Formulae for Passive Lowpass Filter Denormalization -- Denormalizing Passive Filters with Resonant Elements -- Mains Filter Design -- Active Lowpass Filters -- First-Order Filter Section -- Sallen and Key Lowpass Filter -- Denormalizing Sallen and Key Filter Designs -- State Variable Lowpass Filters -- Cauer and Inverse Chebyshev Active Filters -- Denormalizing State Variable or Biquad Designs.
Frequency Dependent Negative Resistance (FDNR) Filters -- Denormalization of FDNR Filters -- References -- Exercises -- Chapter 5. Highpass Filters -- Passive Filters -- Formulae for Passive Highpass Filter Denormalization -- Highpass Filters with Transmission Zeroes -- Active Highpass Filters -- First-Order Filter Section -- Sallen and Key Highpass Filter -- Using Lowpass Pole to Find Component Values -- Using Highpass Poles to Find Component Values -- Operational Amplifier Requirements -- Denormalizing Sallen and Key or First-Order Designs -- State Variable Highpass Filters -- Cauer and Inverse Chebyshev Active Filters -- Denormalizing State Variable or Biquad Designs -- Gyrator Filters -- Reference -- Exercises -- Chapter 6. Bandpass Filters -- Lowpass to Bandpass Transformation -- Passive Filters -- Formula for Passive Bandpass Filter Denormalization -- Passive Cauer and Inverse Chebyshev Bandpass Filters -- Active Bandpass Filters -- Bandpass Poles and Zeroes -- Bandpass Filter Midband Gain -- Multiple Feedback Bandpass Filter -- Denormalizing MFBP Active Filter Designs -- Dual Amplifier Bandpass (DABP) Filter -- Denormalizing DABP Active Filter Designs -- State Variable Bandpass Filters -- Denormalization of State Variable Design -- Cauer and Inverse Chebyshev Active Filters -- Denormalizing Biquad Designs -- Reference -- Exercises -- Chapter 7. Bandstop Filters -- Passive Filters -- Formula for Passive Bandstop Filter Denormalization -- Passive Cauer and Inverse Chebyshev Bandstop Filters -- Active Bandstop Filters -- Bandstop Poles and Zeroes -- The Twin Tee Bandstop Filter -- Denormalization of Twin Tee Notch Filter -- Bandstop Using Multiple Feedback Bandpass Section -- Denormalization of Bandstop Design Using MFBP Section -- Bandstop Using Dual Amplifier Bandpass (DABP) Section -- Denormalization of Bandstop Design Using DABP Section.
State Variable Bandstop Filters -- Denormalization of Bandstop State Variable Filter Section -- Cauer and Inverse Chebyshev Active Filters -- Denormalization of Bandstop Biquad Filter Section -- References -- Exercises -- Chapter 8. Impedance Matching Networks -- Power Splitters and Diplexer Filters -- Power Splitters and Combiners -- Designing a Diplexer -- Impedance Matching Networks -- Exercises -- Chapter 9. Phase-Shift Networks (All-Pass Filters) -- Phase Equalizing All-Pass Filters -- Passive First-Order Equalizers -- Passive Second-Order Equalizers -- Active First-Order Equalizers -- Active Second-Order Equalizers -- Equalization of Butterworth and Chebyshev Filters -- Group Delay of Butterworth Filters -- Equalization of Chebyshev Filters -- Chebyshev Group Delay -- Quadrature Networks and Single Sideband Generation -- References -- Exercises -- Chapter 10. Selecting Components for Analog Filters -- Capacitors -- Inductors -- Resistors -- The Printed Circuit Board (PCB) -- Surface-Mount PCBs -- Assembly and Test -- Operational Amplifiers -- Measurements on Filters -- Reference -- Exercises -- Chapter 11. Filter Design Software -- Filter Design Programs -- Supplied Software -- Active_F -- Filter2 -- Ellipse -- Diplexer -- Match2A -- References -- Chapter 12. Transmission Lines and Printed Circuit Boards as Filters -- Transmission Lines as Filters -- Open-Circuit Line -- Short-Circuit Line -- Use of Misterminated Lines -- Printed Circuits as Filters -- Bandpass Filters -- References -- Exercises -- Chapter 13. Filters for Phase-Locked Loops -- Loop Filters -- Higher-Order Loops -- Analog versus Digital Phase-Locked Loop -- Practical Digital Phase-Locked Loop -- Phase Noise -- Capture and Lock Range -- Reference -- Chapter 14. Filter Integrated Circuits -- Continuous Time Filters -- Switched Capacitor Filters.
Switched Capacitor Filter IC LT1066-1 -- An Application of Switched Capacitor Filters -- Resistor Value Calculations -- Synthesizer Filtering -- Reference -- Chapter 15. Introduction to Digital Filters -- Analog-to-Digital Conversion -- Digital Filtering -- Digital Lowpass Filters -- Truncation (Applied to FIR Filters) -- Transforming the Lowpass Response -- DSP Implementation of an FIR Filter -- Introduction to the Infinite Response Filter -- DSP Mathematics -- So, Why Use a Digital Filter? -- Reference -- Exercises -- Chapter 16. Digital FIR Filter Design -- Frequency versus Time-Domain Responses -- Windows -- FIR Filter Coefficient Calculation -- A Data-Sampling Rate-Changer -- References -- Chapter 17. IIR Filter Design -- Bilinear Transformation -- Pre-Warping -- Denormalization -- IIR Filter Stability -- Reference -- Appendix: Design Equations -- Bessel Transfer Function -- Butterworth Filter Attenuation -- Butterworth Transfer Function -- Butterworth Phase -- Nonstandard Butterworth Passband -- Normalized Component Values for Butterworth Filter with RL >> RS or RL << RS -- Normalized Component Values for Butterworth Filter: Source and Load Impedances within a Factor of Ten -- Chebyshev Filter Response -- Equations to Find Chebyshev Element Values -- Elliptic or Cauer Filter Equations -- Noise Bandwidth -- Pole and Zero Location Equations -- Digital Filter Equations -- Appendix References -- Bibliography -- Answers -- Index.
Abstract:
Unlike most books on filters, Analog and Digital Filter Design does not start from a position of mathematical complexity. It is written to show readers how to design effective and working electronic filters. The background information and equations from the first edition have been moved into an appendix to allow easier flow of the text while still providing the information for those who are interested. The addition of questions at the end of each chapter as well as electronic simulation tools has allowed for a more practical, user-friendly text. *Provides a practical design guide to both analog and digital electronic filters *Includes electronic simulation tools *Keeps heavy mathematics to a minimum.
Local Note:
Electronic reproduction. Ann Arbor, Michigan : ProQuest Ebook Central, 2017. Available via World Wide Web. Access may be limited to ProQuest Ebook Central affiliated libraries.
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