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The Resource Broadband matching : theory and implementations, Wai-Kai Chen, University of Illinois, Chicago, USA

Broadband matching : theory and implementations, Wai-Kai Chen, University of Illinois, Chicago, USA

Creator
Author
Summary
"The third edition presents a unified, up-to-date and detailed account of broadband matching theory and its applications to the design of broadband matching networks and amplifiers. A special feature is the addition of results that are of direct practical value. They are design curves, tables and explicit formulas for designing networks having Butterworth, Chebyshev or elliptic, Bessel or maximally flat group-delay response. These results are extremely useful as the design procedures can be reduced to simple arithmetic. Two case studies towards the end of the book are intended to demonstrate the applications to the practical design of modern filter circuits."--
Language
  • eng
  • eng
Work
Publication
Edition
Third edition.
Extent
1 online resource (879 p.)
Note
Earlier edition: The theory and design of broadband matching networks / by Wai-kai Chen. 1976
Contents
  • Contents; Preface to the 3rd Edition; Preface to the 2nd Edition; Preface to the 1st Edition; Chapter 1. Foundations of Network Theory; 1. Basic network postulates; 1.1. Real-time function postulate; 1.2. Time-invariance postulate; 1.3. Linearity postulate; 1.4. Passivity postulate; 1.5. Causality postulate; 1.6. Reciprocity postulate; 2. Matrix characterizations of n-port networks; 2.1. The impedance matrix; 2.2. The admittance matrix; 2.3. The hybrid matrix; 2.4. The indefinite-admittance matrix; 3. Power gains; 4. Hermitian forms; 5. The positive-real matrix
  • 6. Frequency-domain conditions for passivity7. Conclusions; Problems; References; Chapter 2. The Scattering Matrix; 1. A brief review of the transmission-line theory; 2. The scattering parameters of a one-port network; 2.1. Basis-dependent reflection coefficients; 2.2. Basis-independent reflection coefficient; 2.3. The factorization of the para-hermitian part of z(s); 2.4. Alternative representation of the basis-independent reflection coefficient; 2.5. The normalized reflection coefficient and passivity; 3. The scattering matrix of an n-port network; 3.1. Basis-dependent scattering matrices
  • 3.2. Basis-independent scattering matrix3.3. The scattering matrices and the augmented n-port networks; 3.4. Alternative representation of the basis-independent scattering matrix; 3.5. Physical interpretation of the normalized scattering parameters; 3.6. The normalized scattering matrix and passivity; 3.7. The normalized scattering parameters of a lossless two-port network; 4. The bounded-real scattering matrix; 5. Interconnection of multi-port networks; 6. Conclusions; Problems; References; Chapter 3. Approximation and Ladder Realization; 1. The Butterworth response
  • 1.1. Poles of the Butterworth function1.2. Coefficients of the Butterworth polynomials; 1.3. Butterworth networks; 1.4. Butterworth LC ladder networks; 2. The Chebyshev response; 2.1. Chebyshev polynomials; 2.2. Equiripple characteristic; 2.3. Poles of the Chebyshev function; 2.4. Coefficients of the polynomial p(y); 2.5. Chebyshev networks; 2.6. Chebyshev LC ladder networks; 3. Elliptic functions; 3.1. Jacobian elliptic functions; 3.2. Jacobi's imaginary transformations; 3.3. Periods of elliptic functions; 3.3.1. The real periods; 3.3.2. The imaginary periods
  • 3.4. Poles and zeros of the Jacobian elliptic functions3.5. Addition theorems and complex arguments; 4. The elliptic response; 4.1. The characteristic function Fn(ω); 4.2. Equiripple characteristic in passband and stopband; A. Maxima and minima in the passband; B. Maxima and minima in the stopband; C. Transitional band; 4.3. Poles and zeros of elliptic response; 4.4. Elliptic networks; 5. Frequency transformations; 5.1. Transformation to high-pass; 5.2. Transformation to band-pass; 5.3. Transformation to band-elimination; 6. Conclusions; Problems; References
  • Chapter 4. Theory of Broadband Matching: The Passive Load
Isbn
9789814619073
Instance
Label
Broadband matching : theory and implementations
Title
Broadband matching
Title remainder
theory and implementations
Statement of responsibility
Wai-Kai Chen, University of Illinois, Chicago, USA
Creator
Author
Subject
Genre
Language
  • eng
  • eng
Summary
"The third edition presents a unified, up-to-date and detailed account of broadband matching theory and its applications to the design of broadband matching networks and amplifiers. A special feature is the addition of results that are of direct practical value. They are design curves, tables and explicit formulas for designing networks having Butterworth, Chebyshev or elliptic, Bessel or maximally flat group-delay response. These results are extremely useful as the design procedures can be reduced to simple arithmetic. Two case studies towards the end of the book are intended to demonstrate the applications to the practical design of modern filter circuits."--
Member of
Assigning source
Provided by publisher
Cataloging source
MiAaPQ
http://library.link/vocab/creatorDate
1936-
http://library.link/vocab/creatorName
Chen, Wai-Kai
Dewey number
621.3192
Illustrations
illustrations
Index
index present
Language note
English
LC call number
TK454.2
LC item number
.C426 2016
Literary form
non fiction
Nature of contents
  • dictionaries
  • bibliography
Series statement
Advanced series in electrical and computer engineering
Series volume
volume 18
http://library.link/vocab/subjectName
  • Electric networks
  • Broadband amplifiers
  • Impedance matching
Label
Broadband matching : theory and implementations, Wai-Kai Chen, University of Illinois, Chicago, USA
Instantiates
Publication
Copyright
Note
Earlier edition: The theory and design of broadband matching networks / by Wai-kai Chen. 1976
Bibliography note
Includes bibliographical references and index
Carrier category
online resource
Carrier category code
cr
Content category
text
Content type code
txt
Contents
  • Contents; Preface to the 3rd Edition; Preface to the 2nd Edition; Preface to the 1st Edition; Chapter 1. Foundations of Network Theory; 1. Basic network postulates; 1.1. Real-time function postulate; 1.2. Time-invariance postulate; 1.3. Linearity postulate; 1.4. Passivity postulate; 1.5. Causality postulate; 1.6. Reciprocity postulate; 2. Matrix characterizations of n-port networks; 2.1. The impedance matrix; 2.2. The admittance matrix; 2.3. The hybrid matrix; 2.4. The indefinite-admittance matrix; 3. Power gains; 4. Hermitian forms; 5. The positive-real matrix
  • 6. Frequency-domain conditions for passivity7. Conclusions; Problems; References; Chapter 2. The Scattering Matrix; 1. A brief review of the transmission-line theory; 2. The scattering parameters of a one-port network; 2.1. Basis-dependent reflection coefficients; 2.2. Basis-independent reflection coefficient; 2.3. The factorization of the para-hermitian part of z(s); 2.4. Alternative representation of the basis-independent reflection coefficient; 2.5. The normalized reflection coefficient and passivity; 3. The scattering matrix of an n-port network; 3.1. Basis-dependent scattering matrices
  • 3.2. Basis-independent scattering matrix3.3. The scattering matrices and the augmented n-port networks; 3.4. Alternative representation of the basis-independent scattering matrix; 3.5. Physical interpretation of the normalized scattering parameters; 3.6. The normalized scattering matrix and passivity; 3.7. The normalized scattering parameters of a lossless two-port network; 4. The bounded-real scattering matrix; 5. Interconnection of multi-port networks; 6. Conclusions; Problems; References; Chapter 3. Approximation and Ladder Realization; 1. The Butterworth response
  • 1.1. Poles of the Butterworth function1.2. Coefficients of the Butterworth polynomials; 1.3. Butterworth networks; 1.4. Butterworth LC ladder networks; 2. The Chebyshev response; 2.1. Chebyshev polynomials; 2.2. Equiripple characteristic; 2.3. Poles of the Chebyshev function; 2.4. Coefficients of the polynomial p(y); 2.5. Chebyshev networks; 2.6. Chebyshev LC ladder networks; 3. Elliptic functions; 3.1. Jacobian elliptic functions; 3.2. Jacobi's imaginary transformations; 3.3. Periods of elliptic functions; 3.3.1. The real periods; 3.3.2. The imaginary periods
  • 3.4. Poles and zeros of the Jacobian elliptic functions3.5. Addition theorems and complex arguments; 4. The elliptic response; 4.1. The characteristic function Fn(ω); 4.2. Equiripple characteristic in passband and stopband; A. Maxima and minima in the passband; B. Maxima and minima in the stopband; C. Transitional band; 4.3. Poles and zeros of elliptic response; 4.4. Elliptic networks; 5. Frequency transformations; 5.1. Transformation to high-pass; 5.2. Transformation to band-pass; 5.3. Transformation to band-elimination; 6. Conclusions; Problems; References
  • Chapter 4. Theory of Broadband Matching: The Passive Load
Dimensions
unknown
Edition
Third edition.
Extent
1 online resource (879 p.)
Form of item
online
Isbn
9789814619073
Media category
computer
Media type code
c
Specific material designation
remote
System control number
  • (CKB)3710000000496771
  • (EBL)4394903
  • (SSID)ssj0001380344
  • (PQKBManifestationID)12546392
  • (PQKBTitleCode)TC0001380344
  • (PQKBWorkID)11368498
  • (PQKB)11566493
  • (MiAaPQ)EBC4394903
  • (WSP)00009274
  • (EXLCZ)993710000000496771
Label
Broadband matching : theory and implementations, Wai-Kai Chen, University of Illinois, Chicago, USA
Publication
Copyright
Note
Earlier edition: The theory and design of broadband matching networks / by Wai-kai Chen. 1976
Bibliography note
Includes bibliographical references and index
Carrier category
online resource
Carrier category code
cr
Content category
text
Content type code
txt
Contents
  • Contents; Preface to the 3rd Edition; Preface to the 2nd Edition; Preface to the 1st Edition; Chapter 1. Foundations of Network Theory; 1. Basic network postulates; 1.1. Real-time function postulate; 1.2. Time-invariance postulate; 1.3. Linearity postulate; 1.4. Passivity postulate; 1.5. Causality postulate; 1.6. Reciprocity postulate; 2. Matrix characterizations of n-port networks; 2.1. The impedance matrix; 2.2. The admittance matrix; 2.3. The hybrid matrix; 2.4. The indefinite-admittance matrix; 3. Power gains; 4. Hermitian forms; 5. The positive-real matrix
  • 6. Frequency-domain conditions for passivity7. Conclusions; Problems; References; Chapter 2. The Scattering Matrix; 1. A brief review of the transmission-line theory; 2. The scattering parameters of a one-port network; 2.1. Basis-dependent reflection coefficients; 2.2. Basis-independent reflection coefficient; 2.3. The factorization of the para-hermitian part of z(s); 2.4. Alternative representation of the basis-independent reflection coefficient; 2.5. The normalized reflection coefficient and passivity; 3. The scattering matrix of an n-port network; 3.1. Basis-dependent scattering matrices
  • 3.2. Basis-independent scattering matrix3.3. The scattering matrices and the augmented n-port networks; 3.4. Alternative representation of the basis-independent scattering matrix; 3.5. Physical interpretation of the normalized scattering parameters; 3.6. The normalized scattering matrix and passivity; 3.7. The normalized scattering parameters of a lossless two-port network; 4. The bounded-real scattering matrix; 5. Interconnection of multi-port networks; 6. Conclusions; Problems; References; Chapter 3. Approximation and Ladder Realization; 1. The Butterworth response
  • 1.1. Poles of the Butterworth function1.2. Coefficients of the Butterworth polynomials; 1.3. Butterworth networks; 1.4. Butterworth LC ladder networks; 2. The Chebyshev response; 2.1. Chebyshev polynomials; 2.2. Equiripple characteristic; 2.3. Poles of the Chebyshev function; 2.4. Coefficients of the polynomial p(y); 2.5. Chebyshev networks; 2.6. Chebyshev LC ladder networks; 3. Elliptic functions; 3.1. Jacobian elliptic functions; 3.2. Jacobi's imaginary transformations; 3.3. Periods of elliptic functions; 3.3.1. The real periods; 3.3.2. The imaginary periods
  • 3.4. Poles and zeros of the Jacobian elliptic functions3.5. Addition theorems and complex arguments; 4. The elliptic response; 4.1. The characteristic function Fn(ω); 4.2. Equiripple characteristic in passband and stopband; A. Maxima and minima in the passband; B. Maxima and minima in the stopband; C. Transitional band; 4.3. Poles and zeros of elliptic response; 4.4. Elliptic networks; 5. Frequency transformations; 5.1. Transformation to high-pass; 5.2. Transformation to band-pass; 5.3. Transformation to band-elimination; 6. Conclusions; Problems; References
  • Chapter 4. Theory of Broadband Matching: The Passive Load
Dimensions
unknown
Edition
Third edition.
Extent
1 online resource (879 p.)
Form of item
online
Isbn
9789814619073
Media category
computer
Media type code
c
Specific material designation
remote
System control number
  • (CKB)3710000000496771
  • (EBL)4394903
  • (SSID)ssj0001380344
  • (PQKBManifestationID)12546392
  • (PQKBTitleCode)TC0001380344
  • (PQKBWorkID)11368498
  • (PQKB)11566493
  • (MiAaPQ)EBC4394903
  • (WSP)00009274
  • (EXLCZ)993710000000496771

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