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【推荐手册】CRC Press -2003-circuits and Filters Handbook:
【推荐手册】CRC Press -2003-circuits and Filters Handbook


Library of Congress Cataloging-in-Publication Data
The circuits and filters handbook / editor-in-chief, Wai Kai Chen.— 2nd ed.
p. cm. — (The electrical engineering handbook series)
Includes bibliographical references and index.
ISBN 0-8493-0912-3 (alk. paper)
1. Electronic circuits. 2. Electric filters. I. Chen, Wai-Kai, 1936- II. Series.
TK7867 .C4977 2002
621.3815—dc21 2002031311
This book contains information obtained from authentic and highly regarded sources. Reprinted material is quoted with
permission, and sources are indicated. A wide variety of references are listed. Reasonable efforts have been made to publish
reliable data and information, but the authors and the publisher cannot assume responsibility for the validity of all materials
or for the consequences of their use.
Neither this book nor any part may be reproduced or transmitted in any form or by any means, electronic or mechanical,
including photocopying, microfilming, and recording, or by any information storage or retrieval system, without prior
permission in writing from the publisher.
All rights reserved. Authorization to photocopy items for internal or personal use, or the personal or internal use of specific
clients, may be granted by CRC Press LLC, provided that $1.50 per page photocopied is paid directly to Copyright Clearance
Center, 222 Rosewood Drive, Danvers, MA 01923 USA The fee code for users of the Transactional Reporting Service is
ISBN 0-8493-0912-3/03/$0.00+$1.50. The fee is subject to change without notice. For organizations that have been granted
a photocopy license by the CCC, a separate system of payment has been arranged.
The consent of CRC Press LLC does not extend to copying for general distribution, for promotion, for creating new works,
or for resale. Specific permission must be obtained in writing from CRC Press LLC for such copying.
Direct all inquiries to CRC Press LLC, 2000 N.W. Corporate Blvd., Boca Raton, Florida 33431.
Trademark Notice: Product or corporate names may be trademarks or registered trademarks, and are used only for
identification and explanation, without intent to infringe.
Visit the CRC Press Web site at www.crcpress.com
© 2003 by CRC Press LLC
No claim to original U.S. Government works
International Standard Book Number 0-8493-0912-3
Library of Congress Card Number 2002031311
Printed in the United States of America 1 2 3 4 5 6 7 8 9 0
Printed on acid-free paper
Preface
We are most gratified to find that the first edition of The Circuits and Filters Handbook (1995) was well
received and is widely used. Thus, we feel that our original goal of providing in-depth professional level
coverage of circuits and filters was, indeed, worthwhile. Eight years is a short time in terms of development
of science or technology; but as this Handbook shows, momentous changes have occurred during this
period, necessitating not only the updating of many chapters of the Handbook, but more startling, the
addition and expansion of many topics. Significant examples are entries for design automation, circuit
simulation, hardware/software co-design, and VLSI circuits to name a few of the more prominent additions.
Purpose
The purpose of The Circuits and Filters Handbook is to provide in a single volume a comprehensive
reference work covering the broad spectrum of electrical circuits and filters. It is written and developed
for the practicing electrical engineers in industry, government, and academia. The goal is to provide the
most up-to-date information in classical fields of circuit theory, circuit components and their models,
feedback circuits, nonlinear circuits, distributed circuits, active and passive filters, general circuit analysis
techniques, digital filters, and analog integrated circuits, while covering the emerging fields of digital and
analog VLSI circuits, computer-aided design and optimization techniques, and design automation. In
addition, the necessary background in mathematics is reviewed in the first section. The Handbook is not
an all-encompassing digest of everything taught within an electrical engineering curriculum on circuits
and filters. Rather, it is the engineer's first choice in looking for a solution. Therefore, full references to
other sources of contributions are provided. The ideal reader is a B.S. level engineer with a need for a
one-source reference to keep abreast of new techniques and procedures as well as review standard practices.
Background
The Handbook stresses fundamental theory behind professional applications. In order to do so, it is
reinforced with frequent examples. Extensive development of theory and details of proofs have been
omitted. The reader is assumed to have a certain degree of sophistication and experience. However, brief
reviews of theories, principles, and mathematics of some subject areas are given. These reviews have been
done concisely with perception. The Handbook is not a textbook replacement, but rather a reinforcement
and reminder of material learned as a student. Therefore, important advancement and traditional as well
as innovative practices are included.
Since the majority of professional electrical engineers graduated before powerful personal computers
were widely available, many computational and design methods may be new to them. Therefore, computers
and software use is thoroughly covered. The handbook uses not only traditional references to cite sources
for the contributions, it also contains relevant sources of information and tools that will assist the engineer
in performing his/her job. This includes sources of software, databases, standards, seminars, conferences, etc.
© 2003 by CRC Press LLC
Organization
Over the years, the fundamentals of electrical circuits and filters have evolved to include a wide range of
topics and a broad range of practice. To encompass such a wide range of knowledge, the Handbook
focuses on the key concepts, models, and equations that enable the electrical engineer to analyze, design,
and predict the behavior of large-scale circuits, devices, filters, and systems. While design formulas and
tables are listed, emphasis is placed on the key concepts and theories underlying the applications.
The information is organized into 13 major sections, which encompass the field of electrical circuits
and filters. Each section is divided into chapters. In all there are 93 chapters, each of which was written
by leading experts in the field to enlighten and refresh knowledge of the mature engineer, and to educate
the novice. The first section summarizes the applicable mathematics and symbols underlying other
applications. Each section contains introductory material, leading to the appropriate applications. To
help the reader, each article includes two important and useful categories: defining terms and references.
Defining terms are key definitions and the first occurrence of each term defined is indicated in boldface
in the text. The references provide a list of useful books and articles for following reading. Finally, further
information contained in some articles provides general and useful sources of additional information on
the topic.
Locating Your Topic
Numerous avenues of access to information contained in the Handbook are provided. A complete table
of contents is presented at the front of the book. In addition, an individual table of contents precedes
each of the 13 sections. Finally, each chapter begins with its own table of contents. The reader is urged
to look over these tables of contents to become familiar with the structure, organization, and content of
the book. For example, see Section II: Circuit Elements, Devices and Their Models, then Chapter 10:
Passive Circuit Elements, and then Chapter 10.1: Resistor. This tree-like structure enables the reader to
move up the tree to locate information on the topic of interest.
An index has been compiled to provide multiple means of accessing information. It includes authors
and subjects. The index can also be used to locate definitions. The page on which the definition appears
for each key defining term is given in this index.
The Circuits and Filters Handbook is designed to provide answers to most inquiries and direct the
inquirer to further sources and references. We trust that it will meet your needs.
Acknowledgments
The compilation of this book would not have been possible without the dedication and efforts of the
Editorial Board of Advisors, the section editors, the publishers, and most of all the contributing authors.
I particularly wish to acknowledge Richard C. Dorf, Handbook Series Editor, for his leadership, and my
wife, Shiao-Ling, for her patience and support.
Wai-Kai Chen
Editor-in-Chief
Editor-in-Chief
Wai-Kai Chen, Professor and Head Emeritus of the Department
of Electrical Engineering and Computer Science at the
University of Illinois at Chicago, is now serving as Academic
Vice President at International Technological University. He
received his B.S. and M.S. degrees in electrical engineering at
Ohio University, where he was later recognized as a Distinguished
Professor. He earned his Ph.D. in electrical engineering
at the University of Illinois at Urbana/Champaign.
Professor Chen has extensive experience in education and
industry and is very active professionally in the fields of circuits
and systems. He has served as visiting professor at Purdue University,
University of Hawaii at Manoa, and Chuo University in
Tokyo, Japan. He was Editor of the IEEE Transactions on Circuits
and Systems, Series I and II, President of the IEEE Circuits and
Systems Society, and is the Founding Editor and Editor-in-
Chief of the Journal of Circuits, Systems and Computers. He
received the Lester R. Ford Award from the Mathematical Association
of America, the Alexander von Humboldt Award from Germany, the JSPS Fellowship Award from
Japan Society for the Promotion of Science, the Ohio University Alumni Medal of Merit for Distinguished
Achievement in Engineering Education, the Senior University Scholar Award and the 2000 Faculty
Research Award from the University of Illinois at Chicago, and the Distinguished Alumnus Award from
the University of Illinois at Urbana/Champaign. He is the recipient of the Golden Jubilee Medal, the
Education Award, the Meritorious Service Award from IEEE Circuits and Systems Society, and the Third
Millennium Medal from the IEEE. He has also received more than a dozen honorary professorship awards
from major institutions in China.
A fellow of the Institute of Electrical and Electronics Engineers and the American Association for the
Advancement of Science, Professor Chen is widely known in the profession for his Applied Graph Theory
(North-Holland), Theory and Design of Broadband Matching Networks (Pergamon Press), Active Network
and Feedback Amplifier Theory (McGraw-Hill), Linear Networks and Systems (Brooks/Cole), Passive and
Active Filters: Theory and Implements (John Wiley), Theory of Nets: Flows in Networks (Wiley-Interscience),
and The VLSI Handbook (CRC Press).
Contributors
Rahim Akbari-Dilmaghani
University College of London
London, England
Philip E. Allen
Georgia Institute of Technology
Atlanta, Georgia
Rashid Ansari
University of Illinois at Chicago
Chicago, Illinois
Andreas Antoniou
University of Victoria
Victoria, British Columbia, Canada
Peter Aronhime
University of Louisville
Louisville, Kentucky
James H. Aylor
University of Virginia
Charlottesville, Virginia
Peter Bendix
LSI Logic
Santa Clara, California
Jay Bhasker
eSilicon Corporation
Allentown, Pennsylvania
Benjamin J. Blalock
The University of Tennessee
Knoxville, Tennessee
Bruce W. Bomar
The University of Tennessee
Tullahoma, Tennessee
Marc Borremans
Katholieke Universiteit Leuven
Leuven-Heverlee, Belgium
Martin A. Brooke
Georgia Institute of Technology
Atlanta, Georgia
Gordon E. Carlson
University of Missouri
Rolla, Missouri
A. Enis Cetin
Bilkent University
Bilkent, Ankara, Turkey
Josephine C. Chang
Taiwan Semiconductor
Manufacturing Co.
Taiwan
Robert C. Chang
National Chung Hsing University
Taiwan
K.S. Chao
Texas Tech University
Lubbock, Texas
Guanrong Chen
City University of Hong Kong
Kowloon, Hong Kong
Ray R. Chen
San Jose State University
San Jose, California
Wai-Kai Chen
University of Illinois
Chicago, Illinois
John Choma, Jr.
University of Southern California
Los Angeles, California
Leon O. Chua
University of California
Berkeley, California
Moon-Jung Chung
Michigan State University
East Lansing, Michigan
David J. Comer
Brigham Young University
Provo, Utah
Donald T. Comer
Brigham Young University
Provo, Utah
A. G. Constantinides
Imperial College
London, England
Don Cottrell
Si2, Inc.
Austin, Texas
Artice M. Davis
San Jose State University
San Jose, California
Bram De Muer
Katholieke Universiteit Leuven
Leuven-Heverlee, Belgium
Daniël De Zutter
Gent University
Gent, Belgium
James F. Delansky
The Pennsylvania State University
University Park, Pennsylvania
Manuel Delgado-Restituto
Universidad de Sevilla
Sevilla, Spain
John R. (Jack) Deller, Jr.
Michigan State University
East Lansing, Michigan
© 2003 by CRC Press LLC
Allen M. Dewey
(Deceased)
Duke University
Durham, North Carolina
Abhijit Dharchoudhury
Intel Corporation
Austin, Texas
Igor Djokovic
California Institute of Technology
Pasadena, California
Meng Hwa Er
Nanyang Technological University
Singapore
Joseph B. Evans
ITTC
Lawrence, Kansas
Igor Filanovsky
University of Alberta
Edmonton, Alberta, Canada
Norbert J. Fliege
University of Mannheim
Mannheim, Germany
Sergio B. Franco
San Francisco State University
San Francisco, California
Yosef Gavriel
Virginia Polytechnic Institute and
State University
Blacksburg, Virginia
F. Gail Gray
Virginia Polytechnic Institute and
State University
Blacksburg, Virginia
Edwin W. Greeneich
Arizona State University
Tempe, Arizona
Wayne D. Grover
TRLabs, University of Alberta
Edmonton, Alberta, Canada
David G. Haigh
University College of London
London, England
Ramesh Harjani
University of Minnesota
Minneapolis, Minnesota
Martin Hasler
Swiss Federal Institute of Technology
Lausanne, Switzerland
Marwan M. Hassoun
Iowa State University
Ames, Iowa
Maria del Mar Hershenson
Stanford University
Stanford, California
Shu-Chuan Huang
The Ohio State University
Columbus, Ohio
Yih-Fang Huang
University of Notre Dame
Notre Dame, Indiana
Larry P. Huelsman
University of Arizona
Tucson, Arizona
J. L. Huertas
Universidad de Sevilla
Sevilla, Spain
Chung-Chih Hung
Tatung Institute of Technology
Taipei, Taiwan
Thomas Koryu Ishii
Marquette University
Milwaukee, Wisconsin
Mohammed Ismail
The Ohio State University
Columbus, Ohio
Johan Janssens
Katholieke Universiteit Leuven
Leuven-Heverlee, Belgium
W. Kenneth Jenkins
The Pennsylvania State University
University Park, Pennsylvania
Sung-Mo Kang
University of California
Santa Cruz, California
Michael Peter Kennedy
University College
Dublin, Ireland
I-Hung Khoo
University of California
Irvine, California
Heechul Kim
Hankuk University of Foreign Studies
Yongin, Kyung Ki-Do, North Korea
Robert H. Klenke
Virginia Commonwealth University
Richmond, Virginia
Jelena Kovacˇevic´
Bell Labs, Lucent Technologies
New Vernon, New Jersey
Stuart S. Lawson
University of Warwick
Coventry, England
Thomas H. Lee
Stanford University
Stanford, California
John Lidgey
Oxford Brookes University
London, England
Yong-Ching Lim
National University of Singapore
Singapore
Pen-Min Lin
Purdue University
West Lafayette, Indiana
Erik Lindberg
Technical University of Denmark
Lyngby, Denmark
Stephen I. Long
University of California
Santa Barbara, California
© 2003 by CRC Press LLC
Flavio Lorenzelli
University of Milan/Crema
Crema, Italy
Luc Martens
Gent University
Gent, Belgium
Wolfgang Mathis
University of Hannover
Hannover, Germany
Wasfy B. Mikhael
University of Central Florida
Orlando, Florida
Stephen W. Milam
RF Micro-Devices
Carrollton, Texas
Sunderarajan S. Mohen
Stanford University
Stanford, California
David G. Nairn
Queen's University
Kingston, Ontario, Canada
Robert W. Newcomb
University of Maryland
College Park, Maryland
Nhat M. Nguyen
Rambus IMC.
Los Altos, California
Truong Q. Nguyen
University of California
San Diego, California
Kenneth V. Noren
University of Idaho
Moscow, Idaho
Josef A. Nossek
Technical University of Munich
Munich, Germany
Stanislav Nowak
University of Mining and Metallurgy
Crakow, Poland
Alice C. Parker
University of Southern California
City of Commerce, California
Alison Payne
Imperial College of Science
London, England
Tomasz W. Postupolski
Institute of Electronic Materials
Technology
Warsaw, Poland
Roland Priemer
University of Illinois
Chicago, Illinois
P. K. Rajan
Tennessee Tech University
Cookeville, Tennessee
Jaime Ramirez-Angulo
New Mexico State University
Las Cruces, New Mexico
Hari C. Reddy
California State University
Long Beach, California
Bill Redman-White
University of Southampton
Southamptom, England
Csaba Rekeczky
Hungarian Academy of Sciences
Budapest, Hungary
Benedykt S. Rodanski
University of Technology, Sydney
Broadway, New South Wales,
Australia
Angel Rodríguez-Vázquez
Universidad de Sevilla
Sevilla, Spain
J. Gregory Rollins
Antrim Design Systems
Scotts Valley, California
Tamás Roska
Hungarian Academy of Science
Budapest, Hungary
Trond Saether
Norwegian University of Science
and Technology
Trondheim, Norway
Michael K. Sain
University of Notre Dame
Notre Dame, Indiana
Hirad Samavati
Stanford University
Stanford, California
Edgar Sánchez-Sinencio
Texas A&M University
College Station, Texas
Sachin S. Sapatnekar
University of Minnesota
Minneapolis, Minnesota
Tapio Saramäki
Tampere University of Technology
Tampere, Finland
Rolf Schaumann
Portland State University
Portland, Oregon
Cheryl B. Schrader
The University of Texas
San Antonio, Texas
Naveed Sherwani
Intel Corporation
Hillsboro, Oregon
Bing J. Sheu
Nassda Corporation
Santa Clara, California
José Silva-Martinez
Texas A&M University
College Station, Texas
Marwan A. Simaan
University of Pittsburgh
Pittsburgh, Pennsylvania
L. Montgomery Smith
The University of Tennessee
Tullahoma, Tennessee
© 2003 by CRC Press LLC
Bang-Sup Song
University of California
San Diego, California
F. William Stephenson
Virginia Polytechnic Institute and
State University
Blacksburg, Virginia
Michael Steyaert
Katholieke Universiteit Leuven
Leuven-Heverlee, Belgium
Maciej A. Styblinski
(Deceased)
Texas A&M University
College Station, Texas
James A. Svoboda
Clarkson University
Potsdam, New York
Vladimir Székely
Budapest University of Technology
and Economics
Budapest, Hungary
Sawasd Tantaratana
Sirindhorn International Institute
of Technology
Pathumthani, Thailand
Krishnaiyan Thulasiraman
University of Oklahoma
Norman, Oklahoma
Chris Toumazou
Imperial College of Science
London, England
J. Trujillo
University of Southern California
Los Angeles, California
John P. Uyemura
Georgia Institute of Technology
Atlanta, Georgia
P. P. Vaidyanathan
California Institute of Technology
Pasadena, California
L. Vandenberghe
University of California
Los Angeles, California
J. Vandewalle
Katholieke Universiteit Leuven
Leuven Heverlee, Belgium
F. Vidal
Universidad de Malaga
Malaga, Spain
Jiri Vlach
University of Waterloo
Waterloo, Ontario, Canada
Suhrid A. Wadekar
IBM Corp.
Riverside, California
Chorng-Kuang Wang
National Taiwan University
Taipei, Taiwan
Bogdan M. Wilamowski
University of Idaho
Boise, Idaho
Wayne Wolf
Princeton University
Princeton, New Jersey
Xiaojian Xu
Imperial College
London, England
Andrew T. Yang
University of Washington
Seattle, Washington
Kung Yao
University of California
Los Angeles, California
Min-Shueh Yuan
National Taiwan University
Taipei, Taiwan
C. Patrick Yue
Stanford University
Stanford, California
Akos Zarandy
Hungarian Academy of Science
Budapest, Hungary
Table of Contents
SECTION I Mathematics
Section Editor: Y.F. Huang
1 Linear Operators and Matrices Cheryl B. Schrader and Michael K. Sain
2 Bilinear Operators and Matrices Michael K. Sain and Cheryl B. Schrader
3 The Laplace Transformation John R. Deller, Jr.
4 Fourier Series, Fourier Transforms and the Discrete Fourier Transform
W. Kenneth Jenkins
5 z-Transform Jelena Kovacevic
6 Wavelet Transforms P.P. Vaidyanathan and Igor Djokovic
7 Graph Theory Krishnaiyan Thulasiraman
8 Signal Flow Graphs Krishnaiyan Thulasiraman
9 Theory of Two-Dimensional Hurwitz Polynomials Hari C. Reddy
SECTION II Circuit Elements, Devices and Their Models
Section Editor: John Choma, Jr.
10 Passive Circuit Elements Stanislav Nowak
10.1 Resistor Stanislav Nowak
10.2 Capacitor Stanislav Nowak
10.3 Inductor Tomasz W. Postupolski
10.4 Transformer Gordon E. Carlson
10.5 Semiconductor Diode Bogdan M. Wilamowski
© 2003 by CRC Press LLC
11 RF Passive IC Components Tomas H. Lee, Maria del Mar Hershenson,
Sunderarajan S. Mohen, Hirad Samavati, and C. Patrick Yue
12 Circuit Elements, Modeling and Equation Formulation Josef A. Nossek
13 Controlled Circuit Elements
13.1 Controlled Sources Edwin W. Greenneich
13.2 Signal Converters James F. Delansky
14 Bipolar Transistors (BJT) Circuits David J. Comer and Donald T. Comer
15 Operational Amplifiers
15.1 The Ideal Operational Amplifier David G. Nairn
15.2 The Non-Ideal Operational Amplifier David G. Nairn
15.3 Frequency- and Time-Domain Considerations Sergio Franco
16 High-Frequency Amplifiers Chris Toumazou and Alison Payne
SECTION III Linear Circuit Analysis
Section Editor: Larry P. Huelsman.
17 Fundamental Circuit Concepts John Chroma, Jr
18 Network Laws and Theorems
18.1 Kirchhoff's Voltage and Current Laws Ray R. Chen and Artice M. Davis
18.2 Network Theorems Marwan A. Simaan
19 Terminal and Port Representation James A. Svoboda
20 Signal Flow Graphs in Filter Analysis and Synthesis Pen-Min Lin
21 Analysis in the Frequency Domain
21.1 Network Functions Jiri Vlach
21.2 Advanced Network Analysis Concepts John Chroma, Jr.
22 Tableau and Modified Nodal Formulations Jiri Vlach
© 2003 by CRC Press LLC
23 Frequency Domain Methods Peter Aronhime
24 Symbolic Analysis Benedykt S. Rodanski and Marwan Hassoun
25 Analysis in the Time Domain Robert W. Newcomb
26 State-Variable Techniques K.S. Chao
SECTION IV Feedback Circuits
Section Editor: Wai-Kai Chen
27 Feedback Amplifier Theory John Choma, Jr.
28 Feedback Amplifier Configurations John Choma, Jr.
29 General Feedback Theory Wai-Kai Chen
30 The Network Functions and Feedback Wai-Kai Chen
31 Measurement of Return Difference Wai-Kai Chen
32 Multiple-Loop Feedback Amplifiers Wai-Kai Chen
SECTION V Nonlinear Circuits
Section Editor: Leon O. Chua
33 Qualitative Analysis Martin Hasler
34 Synthesis and Design of Nonlinear Circuits Angel Rodriguez-Vazquez,
Manual Delgado-Restituto, and J.L. Huertas
35 Representation, Approximation, and Identification Guanrong Chen
36 Transformation and Equivalence Wolfgang Mathis
© 2003 by CRC Press LLC
37 Piecewise-Linear Circuits and Piecewise-Linear Analysis
and L. Vandenberghe
Joo Vandewalle
38 Simulation Erik Lindberg
39 Cellular Neural Networks
Rekeczky
Tamas Roska, Akos Zarandy, and Csaba
40 Bifurcation and Chaos Michael Peter Kennedy
SECTION VI Distributed Circuits
Section Editor: Thomas Koryu Ishii
41 Transmission Lines Thomas Koryu Ishii
42 Multiconductor Tranmission Lines Daniel De Zutter and Luc Martens
43 Time and Frequency Domain Responses Daniel De Zutter and Luc
Martens
44 Distributed RC Networks Vladimir Szekely
45 Synthesis of Distributed Circuits Thomas Koryu Ishii
SECTION VII Computer-Aided Design and Optimization
Section Editor: Sung-Mo Kang
46 Modeling of Circuit Performances Sung-Mo Kang and Abhijit
Dharchoudhury
47 Symbolic Analysis Methods Benedydt S. Rodanski and Marwan Hassoun
48 Numerical Analysis Methods Andrew T. Yang
© 2003 by CRC Press LLC
49 Design by Optimization Sachin S. Sapatnekar
50 Statistical Design Optimization Maciej A. Styblinski and Bogumila
Styblinski
51 Physical Design Automation Naveed A. Sherwani
52 Design Automation Technology Allen M. Dewey
53 Computer-Aided Analysis
53.1 Circuit Simulation Using SPICE and SUPREM J. Gregory Rollins
53.2 Parameter Extraction for Analog Circuit Simulation Peter Bendix
54 Analog Circuits Simulation J. Gregory Rollins
SECTION VIII Analog Intergrated Circuits
Section Editor: John Choma, Jr.
55 Monolithic Device Models
55.1 Bipolar Junction Transistor Bogdan M. Wilamowski
55.2 MOSFET Technology Devices John Choma, Jr.
55.3 JFET Technology Transistors Stephen I. Long
55.4 Passive Components Nhat M. Nguyen
55.5 Chip Parasitics in Analog Integrated Circuits Martin A. Brooke
56 Analog Circuit Cells
56.1 Bipolar Biasing Circuits Kenneth V. Noren
56.2 Canonical Cells of Bipolar Technology John Choma, Jr.
56.3 Canonical Cells of MOSFET Technology Mohammed Ismail, Shu-Chuan Huang,
Chung-Chih Hung, and Trond Saether
56.4 MOSFET Biasing Circuits David G. Haigh, Bill Redman-White, and Rahim
Akbari-Dilmaghani
57 High Performance Analog Circuits
57.1 Broadband Bipolar Networks Chris Toumazou, Alison Payne, and John Lidgey
57.2 Bipolar Noise Bogdan M. Wilamowski
© 2003 by CRC Press LLC
58 RF Communication Circuits Michael Steyaert, Johan Janssens, Marc
Borremans and Bram De Muer
59 PLL Circuits Chorng-Kuang Wang and Min-Shueh Yuan
SECTION IX The VLSI Circuits
Section Editor: John Choma, Jr.
60 Digital Circuits
60.1 MOS Logic Circuits John P. Uyemura
60.2 Transmission Gates Robert C. Chang and Bing J. Sheu
61 Digital Systems
61.1 Programmable Logic Devices Festus Gail Gray
61.2 Clocking Schemes Wayne D. Grover
61.3 MOS Storage Circuits Bing J. Sheu and Josephine C. Chang
61.4 Microprocessor-Based Design Roland Priemer
61.5 Systolic Arrays Kung Yao and Flavio Lorenzelli
62 Data Convertors
62.1 Digital-to-Analog Converters Bang-Sup Song
62.2 Analog-to-Digital Converters Ramesh Harjani
SECTION X Design Automation
Section Editor: Allen M. Dewey
63 Internet Based Micro-Electronic Design Automation (IMEDA)
Framework Moon-Jung Chung and Heechul Kim
64 System-Level Design Alice C. Parker, Yosef Tirat-Gefen, and Suhrid A.
Wadekar
65 Synthesis at the Register Transfer Level and the Behavioral Level
Jay Bhasker
66 Embedded Computing Systems and Hardware/Software Co-Design
Wayne Wolf
© 2003 by CRC Press LLC
67 Design Automation Technology Roadmap Don Cottrell
68 Performance Modeling and Analysis in VHDL James H. Aylor and
Robert H. Klenke
SECTION XI Passive Filters
Section Editors: Larry P. Huelsman and Wai-Kai Chen.
69 General Characteristics of Filters Andreas Antoniou
70 Approximation Artice M. Davis
71 Frequency Transformations Jaime Ramirez-Angulo
72 Sensitivity and Selectivity Igor Filanovsky
73 Passive Immittances and Positive-Real Functions Wai-Kai Chen
74 Passive Cascade Synthesis Wai-Kai Chen
75 Synthesis of LCM and RC One-Port Networks Wai-Kai Chen
76 Two-Port Synthesis by Ladder Development Wai-Kai Chen
77 Design of Resistively Terminated Networks Wai-Kai Chen
78 Design of Broadband Matching Networks Wai-Kai Chen
SECTION XII Active Filters
Section Editor: Larry P. Huelsman
79 Low-Gain Active Filters Philip E. Allen, Benjamin J. Blalock, and
Stephen W. Milam
80 Single-Amplifier Multiple-Feedback Filters F. William Stephenson
© 2003 by CRC Press LLC
81 Multiple-Amplifier Biquads Norbert Fliege
82 The Current Generalized Immittance Converter (CGIC) Biquads
Wasfy B. Mikhael
83 Higher-Order Filters Rolf Schaumann
84 Continuous-Time Integrated Filters Rolf Schaumann
85 Switched Capacitor Filters Jose Silva-Martinez and Edgar Sanchez-Sinencio
SECTION XIII Digital Filters
Section Editor: Yong-Ching Lim.
86 FIR Filters
86.1 Properties of FIR Filters Meng Hwa Er
86.2 Window Techniques Meng Hwa Er
86.3 Design of FIR Filters by Optimization Andreas Antoniou, L. Montgomery
Smith, Bruce W. Bonar, Yong-Ching Lim, and Tapio Saramaki
87 IIR Filters
87.1 Properties of IIR Filters Sawasd Tantaratana
87.2 Design of IIR Filters Sawasd Tantaratana
87.3 Wave Digital Filters Stuart S. Lawson
87.4 Lattice Filters Yong-Ching Lim
88 Finite Wordlength Effects Bruce W. Bonar
89 Aliasing-Free Reconstruction Filter Bank Truong Q. Nguyen
90 VLSI Implementation of Digital Filters Joseph B. Evans
91 Two-Dimensional FIR Filters Rashid Ansari and A. Enis Cetin
92 Two-Dimensional IIR Filters A. G. Constantinides and Xiaojian Xu
93 Symmetry and 2-D Filter Design Hari C. Reddy, I-Hung Khoo, and
P. K. Rajan
Table of Contents
SECTION I Mathematics
Section Editor: Y.F. Huang
1 Linear Operators and Matrices Cheryl B. Schrader and Michael K. Sain
2 Bilinear Operators and Matrices Michael K. Sain and Cheryl B. Schrader
3 The Laplace Transformation John R. Deller, Jr.
4 Fourier Series, Fourier Transforms and the Discrete Fourier Transform
W. Kenneth Jenkins
5 z-Transform Jelena Kovacevic
6 Wavelet Transforms P.P. Vaidyanathan and Igor Djokovic
7 Graph Theory Krishnaiyan Thulasiraman
8 Signal Flow Graphs Krishnaiyan Thulasiraman
9 Theory of Two-Dimensional Hurwitz Polynomials Hari C. Reddy
SECTION II Circuit Elements, Devices and Their Models
Section Editor: John Choma, Jr.
10 Passive Circuit Elements Stanislav Nowak
10.1 Resistor Stanislav Nowak
10.2 Capacitor Stanislav Nowak
10.3 Inductor Tomasz W. Postupolski
10.4 Transformer Gordon E. Carlson
10.5 Semiconductor Diode Bogdan M. Wilamowski
© 2003 by CRC Press LLC
11 RF Passive IC Components Tomas H. Lee, Maria del Mar Hershenson,
Sunderarajan S. Mohen, Hirad Samavati, and C. Patrick Yue
12 Circuit Elements, Modeling and Equation Formulation Josef A. Nossek
13 Controlled Circuit Elements
13.1 Controlled Sources Edwin W. Greenneich
13.2 Signal Converters James F. Delansky
14 Bipolar Transistors (BJT) Circuits David J. Comer and Donald T. Comer
15 Operational Amplifiers
15.1 The Ideal Operational Amplifier David G. Nairn
15.2 The Non-Ideal Operational Amplifier David G. Nairn
15.3 Frequency- and Time-Domain Considerations Sergio Franco
16 High-Frequency Amplifiers Chris Toumazou and Alison Payne
SECTION III Linear Circuit Analysis
Section Editor: Larry P. Huelsman.
17 Fundamental Circuit Concepts John Chroma, Jr
18 Network Laws and Theorems
18.1 Kirchhoff's Voltage and Current Laws Ray R. Chen and Artice M. Davis
18.2 Network Theorems Marwan A. Simaan
19 Terminal and Port Representation James A. Svoboda
20 Signal Flow Graphs in Filter Analysis and Synthesis Pen-Min Lin
21 Analysis in the Frequency Domain
21.1 Network Functions Jiri Vlach
21.2 Advanced Network Analysis Concepts John Chroma, Jr.
22 Tableau and Modified Nodal Formulations Jiri Vlach
© 2003 by CRC Press LLC
23 Frequency Domain Methods Peter Aronhime
24 Symbolic Analysis Benedykt S. Rodanski and Marwan Hassoun
25 Analysis in the Time Domain Robert W. Newcomb
26 State-Variable Techniques K.S. Chao
SECTION IV Feedback Circuits
Section Editor: Wai-Kai Chen
27 Feedback Amplifier Theory John Choma, Jr.
28 Feedback Amplifier Configurations John Choma, Jr.
29 General Feedback Theory Wai-Kai Chen
30 The Network Functions and Feedback Wai-Kai Chen
31 Measurement of Return Difference Wai-Kai Chen
32 Multiple-Loop Feedback Amplifiers Wai-Kai Chen
SECTION V Nonlinear Circuits
Section Editor: Leon O. Chua
33 Qualitative Analysis Martin Hasler
34 Synthesis and Design of Nonlinear Circuits Angel Rodriguez-Vazquez,
Manual Delgado-Restituto, and J.L. Huertas
35 Representation, Approximation, and Identification Guanrong Chen
36 Transformation and Equivalence Wolfgang Mathis
© 2003 by CRC Press LLC
37 Piecewise-Linear Circuits and Piecewise-Linear Analysis
and L. Vandenberghe
Joo Vandewalle
38 Simulation Erik Lindberg
39 Cellular Neural Networks
Rekeczky
Tamas Roska, Akos Zarandy, and Csaba
40 Bifurcation and Chaos Michael Peter Kennedy
SECTION VI Distributed Circuits
Section Editor: Thomas Koryu Ishii
41 Transmission Lines Thomas Koryu Ishii
42 Multiconductor Tranmission Lines Daniel De Zutter and Luc Martens
43 Time and Frequency Domain Responses Daniel De Zutter and Luc
Martens
44 Distributed RC Networks Vladimir Szekely
45 Synthesis of Distributed Circuits Thomas Koryu Ishii
SECTION VII Computer-Aided Design and Optimization
Section Editor: Sung-Mo Kang
46 Modeling of Circuit Performances Sung-Mo Kang and Abhijit
Dharchoudhury
47 Symbolic Analysis Methods Benedydt S. Rodanski and Marwan Hassoun
48 Numerical Analysis Methods Andrew T. Yang
© 2003 by CRC Press LLC
49 Design by Optimization Sachin S. Sapatnekar
50 Statistical Design Optimization Maciej A. Styblinski and Bogumila
Styblinski
51 Physical Design Automation Naveed A. Sherwani
52 Design Automation Technology Allen M. Dewey
53 Computer-Aided Analysis
53.1 Circuit Simulation Using SPICE and SUPREM J. Gregory Rollins
53.2 Parameter Extraction for Analog Circuit Simulation Peter Bendix
54 Analog Circuits Simulation J. Gregory Rollins
SECTION VIII Analog Intergrated Circuits
Section Editor: John Choma, Jr.
55 Monolithic Device Models
55.1 Bipolar Junction Transistor Bogdan M. Wilamowski
55.2 MOSFET Technology Devices John Choma, Jr.
55.3 JFET Technology Transistors Stephen I. Long
55.4 Passive Components Nhat M. Nguyen
55.5 Chip Parasitics in Analog Integrated Circuits Martin A. Brooke
56 Analog Circuit Cells
56.1 Bipolar Biasing Circuits Kenneth V. Noren
56.2 Canonical Cells of Bipolar Technology John Choma, Jr.
56.3 Canonical Cells of MOSFET Technology Mohammed Ismail, Shu-Chuan Huang,
Chung-Chih Hung, and Trond Saether
56.4 MOSFET Biasing Circuits David G. Haigh, Bill Redman-White, and Rahim
Akbari-Dilmaghani
57 High Performance Analog Circuits
57.1 Broadband Bipolar Networks Chris Toumazou, Alison Payne, and John Lidgey
57.2 Bipolar Noise Bogdan M. Wilamowski
© 2003 by CRC Press LLC
58 RF Communication Circuits Michael Steyaert, Johan Janssens, Marc
Borremans and Bram De Muer
59 PLL Circuits Chorng-Kuang Wang and Min-Shueh Yuan
SECTION IX The VLSI Circuits
Section Editor: John Choma, Jr.
60 Digital Circuits
60.1 MOS Logic Circuits John P. Uyemura
60.2 Transmission Gates Robert C. Chang and Bing J. Sheu
61 Digital Systems
61.1 Programmable Logic Devices Festus Gail Gray
61.2 Clocking Schemes Wayne D. Grover
61.3 MOS Storage Circuits Bing J. Sheu and Josephine C. Chang
61.4 Microprocessor-Based Design Roland Priemer
61.5 Systolic Arrays Kung Yao and Flavio Lorenzelli
62 Data Convertors
62.1 Digital-to-Analog Converters Bang-Sup Song
62.2 Analog-to-Digital Converters Ramesh Harjani
SECTION X Design Automation
Section Editor: Allen M. Dewey
63 Internet Based Micro-Electronic Design Automation (IMEDA)
Framework Moon-Jung Chung and Heechul Kim
64 System-Level Design Alice C. Parker, Yosef Tirat-Gefen, and Suhrid A.
Wadekar
65 Synthesis at the Register Transfer Level and the Behavioral Level
Jay Bhasker
66 Embedded Computing Systems and Hardware/Software Co-Design
Wayne Wolf
© 2003 by CRC Press LLC
67 Design Automation Technology Roadmap Don Cottrell
68 Performance Modeling and Analysis in VHDL James H. Aylor and
Robert H. Klenke
SECTION XI Passive Filters
Section Editors: Larry P. Huelsman and Wai-Kai Chen.
69 General Characteristics of Filters Andreas Antoniou
70 Approximation Artice M. Davis
71 Frequency Transformations Jaime Ramirez-Angulo
72 Sensitivity and Selectivity Igor Filanovsky
73 Passive Immittances and Positive-Real Functions Wai-Kai Chen
74 Passive Cascade Synthesis Wai-Kai Chen
75 Synthesis of LCM and RC One-Port Networks Wai-Kai Chen
76 Two-Port Synthesis by Ladder Development Wai-Kai Chen
77 Design of Resistively Terminated Networks Wai-Kai Chen
78 Design of Broadband Matching Networks Wai-Kai Chen
SECTION XII Active Filters
Section Editor: Larry P. Huelsman
79 Low-Gain Active Filters Philip E. Allen, Benjamin J. Blalock, and
Stephen W. Milam
80 Single-Amplifier Multiple-Feedback Filters F. William Stephenson
© 2003 by CRC Press LLC
81 Multiple-Amplifier Biquads Norbert Fliege
82 The Current Generalized Immittance Converter (CGIC) Biquads
Wasfy B. Mikhael
83 Higher-Order Filters Rolf Schaumann
84 Continuous-Time Integrated Filters Rolf Schaumann
85 Switched Capacitor Filters Jose Silva-Martinez and Edgar Sanchez-Sinencio
SECTION XIII Digital Filters
Section Editor: Yong-Ching Lim.
86 FIR Filters
86.1 Properties of FIR Filters Meng Hwa Er
86.2 Window Techniques Meng Hwa Er
86.3 Design of FIR Filters by Optimization Andreas Antoniou, L. Montgomery
Smith, Bruce W. Bonar, Yong-Ching Lim, and Tapio Saramaki
87 IIR Filters
87.1 Properties of IIR Filters Sawasd Tantaratana
87.2 Design of IIR Filters Sawasd Tantaratana
87.3 Wave Digital Filters Stuart S. Lawson
87.4 Lattice Filters Yong-Ching Lim
88 Finite Wordlength Effects Bruce W. Bonar
89 Aliasing-Free Reconstruction Filter Bank Truong Q. Nguyen
90 VLSI Implementation of Digital Filters Joseph B. Evans
91 Two-Dimensional FIR Filters Rashid Ansari and A. Enis Cetin
92 Two-Dimensional IIR Filters A. G. Constantinides and Xiaojian Xu
93 Symmetry and 2-D Filter Design Hari C. Reddy, I-Hung Khoo, and
P. K. Rajan
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节日发帖:30bb :30bb
支持一下,这里好书太多。。。。。。。:12bb :12bb :12bb
强烈支持!!!!!!!
:11bb :30bb
谢谢,先收藏了,有空再研究,谢了!!!
:11bb :27bb :29bb :30bb :31bb
it is a good book for me,thank you for the help
谢谢楼主!!!!!元旦都在发东西!!!!!!
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xiexie
感谢楼主分享
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十分感谢~~~~~~~~~~~~~~
thank you!!!!!!!!!!!!!!!!!
好书!谢谢分享!!!!!!!!!!!!!!!
:11bb 好资料~一定要说谢谢 !~~~~~~~~~~~~~~~~~~~~
qiang,ding,thanks
:11bb  真是一本好书,谢谢!
haoshu  好书 好人
Thank you for your sharing
看到介绍我就:cacakiki16de
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