Название | Introduction To Modern Planar Transmission Lines |
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Автор произведения | Anand K. Verma |
Жанр | Техническая литература |
Серия | |
Издательство | Техническая литература |
Год выпуска | 0 |
isbn | 9781119632474 |
Table of Contents
1 Cover
5 Preface
8 1 Overview of Transmission Lines Introduction 1.1 Overview of the Classical Transmission Lines 1.2 Planar Transmission Lines 1.3 Overview of Present Book References
9 2 Waves on Transmission Lines – I Introduction 2.1 Uniform Transmission Lines 2.2 Multisection Transmission Lines and Source Excitation 2.3 Nonuniform Transmission Lines References
10 3 Waves on Transmission Lines – II Introduction 3.1 Matrix Description of Microwave Network 3.2 Conversion and Extraction of Parameters 3.3 Wave Velocity on Transmission Line 3.4 Linear Dispersive Transmission Lines References
11 4 Waves in Material Medium – I Introduction 4.1 Basic Electrical Quantities and Parameters 4.2 Electrical Property of Medium 4.3 Circuit Model of Medium 4.4 Maxwell Equations and Power Relation 4.5 EM‐waves in Unbounded Isotropic Medium 4.6 Polarization of EM‐waves 4.7 EM‐waves Propagation in Unbounded Anisotropic Medium References
12 5 Waves in Material Medium‐II Introduction 5.1 EM‐Waves at Interface of Two Different Media 5.2 Oblique Incidence of Plane Waves 5.3 Special Cases of Angle of Incidence 5.4 EM‐Waves Incident at Dielectric Slab 5.5 EM‐Waves in Metamaterials Medium References
13 6 Electrical Properties of Dielectric Medium Introduction 6.1 Modeling of Dielectric‐Medium 6.2 Static Dielectric Constants of Materials 6.3 Dielectric Mixtures 6.4 Frequency Response of Dielectric Materials 6.5 Resonance Response of the Dielectric‐Medium 6.6 Interfacial Polarization 6.7 Circuit Models of Dielectric Materials 6.8 Substrate Materials for Microwave Planar Technology References
14 7 Waves in Waveguide Medium Introduction 7.1 Classification of EM‐Fields 7.2 Boundary Surface and Boundary Conditions 7.3 TEM‐Mode Parallel‐Plate Waveguide 7.4 Rectangular Waveguides 7.5 Conductor Backed Dielectric Sheet Surface Wave Waveguide 7.6 Equivalent Circuit Model of Waveguide 7.7 Transverse Resonance Method (TRM) 7.8 Substrate Integrated Waveguide (SIW) References
15 8 Microstrip Line Introduction 8.1 General Description 8.2 Static Closed‐Form Models of Microstrip Line 8.3 Dispersion in Microstrip Line 8.4 Losses in Microstrip Line 8.5 Circuit Model of Lossy Microstrip Line References