Research Catalog

Multiconductor transmission-line structures

Title
  1. Multiconductor transmission-line structures / J.A. Brandão Faria.
Published by
  1. New York : Wiley, [1993], ©1993.
Author
  1. Faria, J. A. Brandão, 1952-

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Details

Description
  1. viii, 203 pages : illustrations; 25 cm.
Summary
  1. Multiconductor Transmission-Line Structures is a valuable addition to the literature in the field. It combines highly accessible presentation with rigorous treatment of all subjects - many of them rarely discussed in microwave books, such as generalized modal theory and a perturbation approach to modal analysis. Designed to be a self-contained reference, requiring no outside source material, the background required to follow each discussion is contained within the text.
  2. The new and original material in this book will appeal to a diversified audience. R&D microwave scientists will appreciate the use of a perturbation approach to modal analysis and generalized modal theory. Owing to its rigorous treatment of both theoretical issues and practical applications, it is sure to become an indispensable handbook for engineers concerned with the design and modelling of microwave circuits, telecommunications systems, or power systems.
  3. Students and professors in advanced undergraduate and graduate courses in electromagnetics and microwave technologies will find this a valuable supporting text.
Series statement
  1. Wiley series in microwave and optical engineering
Uniform title
  1. Wiley series in microwave and optical engineering.
Subject
  1. Microwave transmission lines > Mathematical models
  2. Strip transmission lines > Mathematical models
  3. Microwave wiring
  4. Matrices
Contents
  1. 1. Introduction to the Theory of Multiconductor Transmission Lines. 1.1. Time-Domain Equations. 1.2. Frequency-Domain Equations. 1.3. Ordinary Propagation Modes. 1.4. Transmission-Line Matrices. 1.5. Demonstration Example -- 2. A Perturbation Approach to Modal Analysis. 2.1. Perturbation Formalism for Nondegenerate Cases. 2.2. Perturbation Formalism for Degenerate Cases. 2.3. Application Examples -- 3. Resonance Effects Due to Multiconductor-Line Discontinuities. 3.1. Frequency-Dependent Propagation Characteristics. 3.2. Techniques Based on Immittance Matrices. 3.3. Techniques Based on Modal Analysis. 3.4. Techniques Based on Transfer Matrices -- 4. Generalized Modal Theory. 4.1. Diagonalizability and Degeneracy. 4.2. Demonstration of Nondiagonalizable Cases. 4.3. Modal Groups. 4.4. Transmission-Line Matrices. 4.5. Application Example.
Owning institution
  1. Columbia University Libraries
Note
  1. "A Wiley-Interscience publication."
Bibliography (note)
  1. Includes bibliographical references (p. 195-196) and index.