1.

Record Nr.

UNINA9911019993803321

Autore

Nguyen Cam

Titolo

Analysis methods for RF, microwave, and millimeter-wave planar transmission line structures / / Cam Nguyen

Pubbl/distr/stampa

New York, : J. Wiley, c2000

ISBN

9786610367412

9781280367410

1280367415

9780470231852

0470231858

9780471463849

0471463841

9780471200673

0471200670

Descrizione fisica

1 online resource (259 p.)

Collana

Wiley series in microwave and optical engineering

Disciplina

621.3813

Soggetti

Microwave transmission lines

Strip transmission lines

Microwave integrated circuits

Electric circuit analysis

Lingua di pubblicazione

Inglese

Formato

Materiale a stampa

Livello bibliografico

Monografia

Note generali

"A Wiley-Interscience publication."

Nota di bibliografia

Includes bibliographical references and index.

Nota di contenuto

Analysis Methods for RF, Microwave, and Millimeter-Wave Planar Transmission Line Structures; Contents; Preface; 1 Introduction; 1.1 Planar Transmission Lines and Microwave Integrated Circuits; 1.2 Analysis Methods for Planar Transmission Lines; 1.3 Organization of the Book; 2 Fundamentals of Electromagnetic Theory; 2.1 Maxwell's Equations; 2.2 Constitutive Relations; 2.3 Continuity Equation; 2.4 Loss in Medium; 2.5 Boundary Conditions; 2.6 Skin Depth; 2.7 Power Flow; 2.8 Poisson's and Laplace's Equations; 2.9 Wave Equations; 2.10 Electric and Magnetic Potentials; 2.11 Wave Types and Solutions

2.11.1 Wave Types2.11.2 Wave Solutions; 2.12 Orthogonality Relations; 2.12.1 Orthogonality Relations Between y(h)(mn)(x, y) and Between y(e)


(mn)(x, y); 2.12.2 Orthogonality Relations Between Electric Fields and Between Magnetic Fields; 2.12.3 Orthogonality Relations Between Electric and Magnetic Fields; 2.12.4 Power Orthogonality for Lossless Structures; References; Problems; 3 Green's Function; 3.1 Descriptions of Green's Function; 3.1.1 Solution of Poisson's Equation Using Green's Function; 3.1.2 Solution of the Wave Equation Using Green's Function; 3.2 Sturm-Liouville Equation

3.3 Solutions of Green's Function3.3.1 Closed-Form Green's Function; 3.3.2 Series-Form Green's Function; 3.3.3 Integral-Form Green's Function; References; Problems; Appendix: Green's Identities; 4 Planar Transmission Lines; 4.1 Transmission Line Parameters; 4.1.1 Static Analysis; 4.1.2 Dynamic Analysis; 4.2 Microstrip Line; 4.3 Coplanar Waveguide; 4.4 Coplanar Strips; 4.5 Strip Line; 4.6 Slot Line; References; Problems; 5 Conformal Mapping; 5.1 Principles of Mappings; 5.2 Fundamentals of Conformal Mapping; 5.3 The Schwarz-Christoffel Transformation

5.4 Applications of the Schwarz-Christoffel Transformation in Transmisison Line Analysis5.5 Conformal-Mapping Equations for Common Transmission Lines; References; Problems; 6 Variational Methods; 6.1 Fundamentals of Variational Methods; 6.2 Variational Expressions for the Capacitance per Unit Length of Transmission Lines; 6.2.1 Upper-Bound Variational Expression for C; 6.2.2 Lower-Bound Variational Expression for C; 6.2.3 Determination of C, Z(o), and ε(eff); 6.3 Formulation of Variational Methods in the Space Domain; 6.3.1 Variational Formulation Using Upper-Bound Expression

6.3.2 Variational Formulation Using Lower-Bound Expression6.4 Variational Methods in the Spectral Domain; 6.4.1 Lower-Bound Variational Expression for C in the Spectral Domain; 6.4.2 Determination of C, Z(o), and ε(eff); 6.4.3 Formulation; References; Problems; Appendix: Systems of Homogeneous Equations from the Lower-Bound Variational Formulation; 7 Spectral-Domain Method; 7.1 Formulation of the Quasi-static Spectral-Domain Analysis; 7.2 Formulation of the Dynamic Spectral-Domain Analysis; References; Problems; Appendix A: Fourier Transform and Parseval's Theorem

Appendix B: Galerkin's Method

Sommario/riassunto

A one-stop reference to themajor techniques for analyzingmicrowave planar transmission line structuresThe last two decades have seen important progress in the development of methods for the analysis of microwave and millimeter-wave passive structures, which contributed greatly to microwave integrated circuit design while also stimulating the development of new planar transmission lines. This timely and authoritative work introduces microwave engineers to the most commonly used techniques for analyzing microwave planar transmission line structures.Designed to be easily a