Broadband matching : theory and implementations /

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"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 a...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Chen, Wai-Kai, 1936-
Formato: Electrónico eBook
Idioma:Inglés
Publicado: New Jersey : World Scientific Publishing, [2015]
Edición:Third edtion.
Colección:Advanced series in electrical and computer engineering
Temas:
Electric networks.
Broadband amplifiers.
Impedance matching.
Réseaux électriques (Circuits)
Amplificateurs à large bande.
Adaptation d'impédance.
TECHNOLOGY & ENGINEERING > Mechanical.
Broadband amplifiers
Electric networks
Impedance matching
Acceso en línea:Texto completo
Tabla de Contenidos:
  • 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

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