Читать книгу Introduction To Modern Planar Transmission Lines - Anand K. Verma - Страница 2

Table of Contents

Оглавление

Cover

Title Page

Copyright Page

Dedication Page

Preface

Acknowledgments

Author Biography

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

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

16  9 Coplanar Waveguide and Coplanar Stripline Introduction 9.1 General Description 9.2 Fundamentals of Conformal Mapping Method 9.3 Conformal Mapping Analysis of Coplanar Waveguide 9.4 Coplanar Stripline 9.5 Effect of Conductor Thickness on Characteristics of CPW and CPS Structures 9.6 Modal Field and Dispersion of CPW and CPS Structures 9.7 Losses in CPW and CPS Structures 9.8 Circuit Models and Synthesis of CPW and CPS References

17  10 Slot Line Introduction 10.1 Slot Line Structures 10.2 Analysis and Modeling of Slot Line 10.3 Waveguide Model 10.4 Closed‐form Models References Journals Appendix – I Appendix – II

18  11 Coupled Transmission Lines Introduction 11.1 Some Coupled Line Structures 11.2 Basic Concepts of Coupled Transmission Lines 11.3 Circuit Models of Coupling 11.4 Even–Odd Mode Analysis of Symmetrical Coupled Lines 11.5 Wave Equation for Coupled Transmission Lines References

19  12 Planar Coupled Transmission Lines Introduction 12.1 Line Parameters of Symmetric Edge Coupled Microstrips 12.2 Line Parameters of Asymmetric Coupled Microstrips 12.3 Line Parameters of Coupled CPW 12.4 Network Parameters of Coupled Line Section 12.5 Asymmetrical Coupled Lines Network Parameters References

20  13 Fabrication of Planar Transmission Lines Introduction 13.1 Elements of Hybrid MIC (HMIC) Technology 13.2 Elements of Monolithic MIC (MMIC) Technology 13.3 Micromachined Transmission Line Technology 13.4 Elements of LTCC References

21  14 Static Variational Methods for Planar Transmission Lines Introduction 14.1 Variational Formulation of Transmission Line 14.2 Variational Expression of Line Capacitance in Fourier Domain 14.3 Analysis of Microstrip Line by Variational Method 14.4 Analysis of Multilayer Microstrip Line 14.5 Analysis of Coupled Microstrip Line in Multilayer Dielectric Medium 14.6 Discrete Fourier Transform Method References

22  15 Multilayer Planar Transmission Lines Introduction 15.1 SLR Process for Multilayer Microstrip Lines 15.2 SLR Process for Multilayer Coupled Microstrip Lines 15.3 SLR Process for Multilayer ACPW/CPW 15.4 Further Consideration of SLR Formulation References

23  16 Dynamic Spectral Domain Analysis Introduction 16.1 General Discussion of SDA 16.2 Green's Function of Single‐Layer Planar Line 16.3 Solution of Hybrid Mode Field Equations (Galerkin's Method in Fourier Domain) 16.4 Basis Functions for Surface Current Density and Slot Field 16.5 Coplanar Multistrip Structure 16.6 Multilayer Planar Transmission Lines References

24  17 Lumped and Line Resonators Introduction 17.1 Basic Resonating Structures 17.2 Zero‐Dimensional Lumped Resonator 17.3 Transmission Line Resonator References

25  18 Planar Resonating Structures Introduction 18.1 Microstrip Line Resonator 18.2 CPW Resonator 18.3 Slot Line Resonator 18.4 Coupling of Line Resonator to Source and Load 18.5 Coupled Resonators 18.6 Microstrip Patch Resonators 18.7 2D Fractal Resonators 18.8 Dual‐Mode Resonators References

26  19 Planar Periodic Transmission Lines Introduction 19.1 1D and 2D Lattice Structures 19.2 Space Harmonics of Periodic Structures 19.3 Circuit Models of 1D Periodic Transmission Line 19.4 1D Planar EBG Structures References

27  20 Planar Periodic Surfaces Introduction 20.1 2D Planar EBG Surfaces 20.2 Circuit Models of Mushroom‐Type EBG 20.3 Uniplanar EBG Structures 20.4 2D Circuit Models of EBG Structures References

28  21 Metamaterials Realization and Circuit Models – I Introduction 21.1 Artificial Electric Medium 21.2 Artificial Magnetic Medium 21.3 Double Negative Metamaterials 21.4 Homogenization and Parameters Extraction References

29  22 Metamaterials Realization and Circuit Models – II Introduction 22.1 Circuit Models of 1D‐Metamaterials 22.2 Nonresonant Microstrip Metalines 22.3 Resonant Metalines 22.4 Some Applications of Metalines 22.5 Modeling and Characterization of Metsurfaces 22.6 Applications of Metasurfaces References

30  Index

31  End User License Agreement

Introduction To Modern Planar Transmission Lines

Подняться наверх