Transmission lines and lumped circuits / Giovanni Miano, Antonio Maffucci.

Format:

Book

Author/Creator:

Miano, Giovanni.

Contributor:

Maffucci, Antonio.

Series:

Electromagnetism.

Electromagnetism

Academic press series in electromagnetism

Language:

English

Subjects (All):

Electric lines.

Electric networks.

Electronic circuits.

Electric circuit analysis--Mathematics.

Electric circuit analysis.

Physical Description:

1 online resource (503 p.)

Place of Publication:

San Diego : Academic Press, c2001.

Language Note:

English

Summary:

The theory of transmission lines is a classical topic of electrical engineering. Recently this topic has received renewed attention and has been a focus of considerable research. This is because the transmisson line theory has found new and important applications in the area of high-speed VLSI interconnects, while it has retained its significance in the area of power transmission. In many applications, transmission lines are connected to nonlinear circuits. For instance, interconnects of high-speed VLSI chips can be modelled as transmission lines loaded with nonlinear elements. These nonl

Contents:

Front Cover; Transmission Lines and Lumped Circuits; Copyright Page; Contents; Foreword; Preface; Introduction; Chapter 1. Transmission Line Equations and Properties; 1.1 Transmission Line Model; 1.2 Two-Conductor Transmission Line Equations; 1.3 Multiconductor Transmission Line Equations; 1.4 Poynting's Theorem for Lines with Frequency Independent Parameters; 1.5 Uniqueness of the Solution of Transmission Line Equations; 1.6 Poynting's Theorem for Lines in the Frequency Domain; 1.7 Uniqueness of the Solution of Transmission Line Equations with Frequency-Dependent Parameters

1.8 Transmission Line Equations in the Laplacde Domain1.9 Reciprocity Theorems for Two-Conductor Transmission Lines; 1.10 Reciprocity Theorems for Multiconductor Transmission Lines; Chapter 2. Ideal Two-Conductor Transmission Lines Connected to Lumped Circuits; 2.1 d'Alembert Solution of Two-Conductor Transmission Line Equations; 2.2 Some Elementary Networks; 2.3 Natural Frequencies of a Finite Length Transmission Line Connected to Short Circuits; 2.4 Two-Conductor Transmission Lines as Two-Ports; 2.5 The Input-Output Description

2.6 The Input-State-Output Description, and Equivalent Circuits of Thévenin and Norton Type2.7 Lines Connected to Linear Lumped Circuits; 2.8 A Glimpse at a Transmission Line Connected to a Nonlinear One-Port: State Equations in Normal Form; 2.9 Ideal Two-Conductor Transmission Lines with Distributed Sources; Chapter 3. Ideal Multiconductor Transmission Lines; 3.1 d'Alembert Solution for Ideal Multiconductor Transmission Lines; 3.2 Infinite Multiconductor Transmission Lines; 3.3 Semi-infinite Multiconductor Transmission Lines and Equivalent Circuits

3.4 Ideal Multiconductor Transmission Lines asMultiports3.5 The Input-State-Output Description and the Equivalent Circuits of Thévenin and Norton Type; 3.6 Multiconductor Lines with Homogeneous Dielectric; 3.7 Multiconductor Transmission Line Connected to Linear Resistive Multiports; 3.8 A Particular Solution of the Ideal Multiconductor Transmission Line Equations with Distributed Sources; 3.9 Properties of the Characteristic Conductance Matrix Gc and Resistance Matrix Rc; Chapter 4. Lossy Two-Conductor Transmission Lines; 4.1 Lossy Transmission Lines are Dispersive

4.2 Solution of the Lossy Transmission Line Equations in the Laplace Domain4.3 The Propagation Along a Lossy Transmission Line; 4.4 Semi-infinite Lossy Line Connected to an Ideal Current Source; 4.5 Representation of Lossy Two-Conductor Lines as Two-Ports; 4.6 The Input-State-Output Description; 4.7 Input-Output Descriptions in Explicit Form; 4.8 A Lossy Transmission Line Connecting Two Linear Resistive One-Ports; 4.9 The Matching Problem for Lossy Lines; 4.10 Lossy Transmission Lines with Distributed Sources

4.11 Characterization of the Terminal Behavior of the Line Through the Scattering Parameters

Notes:

Description based upon print version of record.

Includes bibliographical references (p. 463-470) and index.

ISBN:

1-281-05895-5

9786611058951

0-08-051959-8

OCLC:

476111789