Feedback, Nonlinear, and Distributed Circuits / Edition 1

Feedback, Nonlinear, and Distributed Circuits / Edition 1

by Wai-Kai Chen (Editor)

Paperback

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Overview

Upon its initial publication, The Circuits and Fiters Handbook broke new ground. It quickly became the resource for comprehensive coverage of issues and practical information that can be put to immediate use. Not content to rest on his laurels, in addition to updating the second edition, editor Wai-Kai Chen divided it into tightly focused texts that made the information easily accessible and digestible. These texts have been revised, updated, and expanded so that they continue to provide solid coverage of standard practices and enlightened perspectives on new and emerging techniques.

Feedback, Nonlinear, and Distributed Circuits draws together international contributors who discuss feedback amplifier theory and explore feedback amplifier configurations. They develop Bode's feedback theory as an example of general feedback theory. The coverage then moves on to the importance of complementing numerical analysis with qualitative analysis to get a global picture of a circuit's performance. After reviewing a wide range of approximation techniques and circuit design styles for discrete and monolithic circuits, the book presents a comprehensive description of the use of piecewise-linear methods in modeling, analysis, and structural properties of nonlinear circuits. It describes the analysis and synthesis of distributed circuits, and the circuit modeling in the frequency domain of uniform multiconductor transmission lines based on the Telegrapher's equations and covers frequency and time domain experimental characterization techniques for uniform and nonuniform multiconductor structures.

Covers single-loop and multiple-loop feedback amplifiers

Provides a brief description ofmathematical representation, approximation, and identification of nonlinear systems

Discusses general methods for the analysis of vector fields that have at least one nonhyperbolic fixed point

Examines the simulation or analysis of a nonlinear electrical circuit by means of a computer program

Presents a comprehensive analysis and synthesis of distributed circuits

This volume will undoubtedly take its place as the engineer's first choice in looking for solutions to problems encountered when dealing with feedback, linear, and distributed circuits.

Product Details

ISBN-13: 9781138112766
Publisher: Taylor & Francis
Publication date: 06/30/2017
Series: Circuits and Filters Handbook, 3rd Edition Series
Pages: 466
Product dimensions: 7.00(w) x 10.00(h) x (d)

Table of Contents

Preface vii

Editor-in-Chief ix

Contributors xi

Section I Feedback Circuits

1 Feedback Amplifier Theory John Choma 1

2 Feedback Amplifier Configurations John Choma 2

3 General Feedback Theory Wai-Kai Chen 3

4 Network Functions and Feedback Wai-Kai Chen 4

5 Measurement of Return Difference Wai-Kai Chen 5

6 Multiple-Loop Feedback Amplifiers Wai-Kai Chen 6

Section II Nonlinear Circuits

7 Qualitative Analysis Martin Hasler 7

8 Synthesis and Design of Nonlinear Circuits Angel Rodríguez-Váquez Manuel Delgado-Restituto Jose L. Huertas F. Vidal 8

9 Representation, Approximation, and Identification Guanrong Chen 9

10 Transformation and Equivalence Wolfgang Mathis 10

11 Piecewise-Linear Circuits and Piecewise-Linear Analysis Joos Vandewalle Lieven Vandenberghe 11

12 Simulation Erik Lindberg 12

13 Cellular Neural Networks and Cellular Wave Computers Tamás Roska ákos Zarándy Csaba Rekeczky 13

14 Bifurcation and Chaos Michael Peter Kennedy 14

Section III Distributed Circuits

15 Transmission Lines Thomas Koryu Ishii 15

16 Multiconductor Transmission Lines Daniël De Zutter Luc Martens 16

17 Time and Frequency Domain Responses Luc Martens Daniël De Zutter 17

18 Distributed RC Networks Vladimír Székely 18

19 Synthesis of Distributed Circuits Thomas Koryu Ishii 19

Index IN-1

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