Introduction To Modern Planar Transmission Lines
Physical, Analytical, and Circuit Models Approach
(Sprache: Englisch)
Provides a comprehensive discussion of planar transmission lines and their applications, focusing on physical understanding, analytical approach, and circuit models
Planar transmission lines form the core of the modern high-frequency communication,...
Planar transmission lines form the core of the modern high-frequency communication,...
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Klappentext zu „Introduction To Modern Planar Transmission Lines “
Provides a comprehensive discussion of planar transmission lines and their applications, focusing on physical understanding, analytical approach, and circuit modelsPlanar transmission lines form the core of the modern high-frequency communication, computer, and other related technology. This advanced text gives a complete overview of the technology and acts as a comprehensive tool for radio frequency (RF) engineers that reflects a linear discussion of the subject from fundamentals to more complex arguments.
Introduction to Modern Planar Transmission Lines: Physical, Analytical, and Circuit Models Approach begins with a discussion of waves on transmission lines and waves in material medium, including a large number of illustrative examples from published results. After explaining the electrical properties of dielectric media, the book moves on to the details of various transmission lines including waveguide, microstrip line, co-planar waveguide, strip line, slot line, and coupled transmission lines. A number of special and advanced topics are discussed in later chapters, such as fabrication of planar transmission lines, static variational methods for planar transmission lines, multilayer planar transmission lines, spectral domain analysis, resonators, periodic lines and surfaces, and metamaterial realization and circuit models.
* Emphasizes modeling using physical concepts, circuit-models, closed-form expressions, and full derivation of a large number of expressions
* Explains advanced mathematical treatment, such as the variation method, conformal mapping method, and SDA
* Connects each section of the text with forward and backward cross-referencing to aid in personalized self-study
Introduction to Modern Planar Transmission Lines is an ideal book for senior undergraduate and graduate students of the subject. It will also appeal to new researchers with the inter-disciplinary background, as well as to engineers and professionals in industries
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utilizing RF/microwave technologies.
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Inhaltsverzeichnis zu „Introduction To Modern Planar Transmission Lines “
Chapter -1: Overview of Transmission Lines (Historial Perspective, Overview of Present Book)1.1 Overview of the classical transmission lines
1.1.1 Telegraph line
1.1.2 Development of theoretical concepts in EM-Theory
1.1.3 Development of the transmission line equations
1.1.4 Waveguides as propagation medium
1.2. Planar transmission lines
1.2.1 Development of planar transmission lines
1.2.2 Analytical methods applied to planar transmission lines
1.3 Overview of present book
1.3.1 The organization of chapters in this book
1.3.2 Key features, intended audience, and some suggestions
Chapter -2: Waves on Transmission Lines- I (Basic Equations, Multisection transmission lines)
2.1 Uniform transmission lines
2.1.1 Wave motion
2.1.2 Circuit model of transmission line
2.1.3 Kelvin - Heaviside transmission line equations in time domain
2.1.4 Kelvin - Heaviside transmission line equations in frequency domain
2.1.5 Characteristic of lossy transmission line
2.1.6 Wave equation with source
2.1.7 Solution of voltage and current -wave equation
2.1.8 Application of Thevenin's theorem to transmission line
2.1.9 Power relation on transmission line
2.2 Multi-section transmission lines and source excitation
2.2.1 Multisection transmission lines
2.2.2 Location of sources
2.3 Non-uniform transmission lines
2.3.1 Wave equation for non-uniform Transmission line
2.3.2 Lossless exponential transmission line
References
Chapter -3: Waves on Transmission Lines- II (Network parameters, Wave velocities, Loaded lines)
3.1 Matrix description of microwave network
3.1.1 [Z] parameters
3.1.2 Admittance matrix
3.1.3 Transmission [ABCD] parameters
3.1.4 Scattering [S] parameters
3.2
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Conversion and extraction of parameters
3.2.1 Relation between matrix parameters
3.2.2 De-Embedding of true S-parameters
3.2.3 Extraction of propagation characteristics
3.3 Wave velocity on transmission line
3.3.1 Phase velocity
3.3.2 Group velocity
3.4 Linear dispersive transmission lines
3.4.1 Wave equation of dispersive transmission lines
3.4.2 Circuit models of dispersive transmission lines
References
Chapter -4: Waves in Material Medium- I (Waves in isotropic and anisotropic media, Polarization of waves)
4.1 Basic electrical quantities and parameters
4.1.1 Flux field and force field
4.1.2 Constitutive relations
4.1.3 Category of materials
4.2 Electrical property of medium
4.2.1 Linear and non-linear medium
4.2.2 Homogeneous and nonhomogeneous medium
4.2.3 Isotropic and anisotropic medium
4.2.4 Non-dispersive and dispersive medium
4.2.5 Non-lossy and lossy medium
4.2.6 Static conductivity of materials
4.3 Circuit model of medium
4.3.1 RC circuit model of lossy dielectric medium
4.3.2 Circuit model of lossy magnetic medium
4.4 Maxwell equations and power relation
4.4.1 Maxwell's equations
4.4.2 Power and energy relation from Maxwell equations
4.5 EM-waves in unbounded isotropic Medium
4.5.1 EM-wave equation
4.5.2 1D wave equation
4.5.3 Uniform plane waves in linear lossless homogeneous isotropic medium
4.5.4 Vector algebraic form of Maxwell equations
4.5.5 Uniform plane waves in lossy condu
3.2.1 Relation between matrix parameters
3.2.2 De-Embedding of true S-parameters
3.2.3 Extraction of propagation characteristics
3.3 Wave velocity on transmission line
3.3.1 Phase velocity
3.3.2 Group velocity
3.4 Linear dispersive transmission lines
3.4.1 Wave equation of dispersive transmission lines
3.4.2 Circuit models of dispersive transmission lines
References
Chapter -4: Waves in Material Medium- I (Waves in isotropic and anisotropic media, Polarization of waves)
4.1 Basic electrical quantities and parameters
4.1.1 Flux field and force field
4.1.2 Constitutive relations
4.1.3 Category of materials
4.2 Electrical property of medium
4.2.1 Linear and non-linear medium
4.2.2 Homogeneous and nonhomogeneous medium
4.2.3 Isotropic and anisotropic medium
4.2.4 Non-dispersive and dispersive medium
4.2.5 Non-lossy and lossy medium
4.2.6 Static conductivity of materials
4.3 Circuit model of medium
4.3.1 RC circuit model of lossy dielectric medium
4.3.2 Circuit model of lossy magnetic medium
4.4 Maxwell equations and power relation
4.4.1 Maxwell's equations
4.4.2 Power and energy relation from Maxwell equations
4.5 EM-waves in unbounded isotropic Medium
4.5.1 EM-wave equation
4.5.2 1D wave equation
4.5.3 Uniform plane waves in linear lossless homogeneous isotropic medium
4.5.4 Vector algebraic form of Maxwell equations
4.5.5 Uniform plane waves in lossy condu
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Autoren-Porträt von Anand K. Verma
ANAND K. VERMA, PhD, is an Adjunct Professor in the School of Engineering, Macquarie University, Sydney. Formerly, he was Professor and Head of the Department of Electronic Science, South Campus, University of Delhi. He has been Visiting Professor at Otto-Van-Guericke University, Magdeburg, Germany (2002, 2002-2003), and Nanyang Technological University, Singapore as a Tan Chin Tuan Scholar (2001). He holds a German Patent on microstrip antenna. He has organized and attended many International Symposia and Workshops and conducted short-term courses and delivered invited lectures at the research institutes in India and in several countries. He was also chairman of the TPC, APMC-2004, Delhi. Professor Verma has published over 250 papers in international journals and in the proceedings of international and national symposia.
Bibliographische Angaben
- Autor: Anand K. Verma
- 2021, 1. Auflage, 944 Seiten, Maße: 21,3 x 30,5 cm, Gebunden, Englisch
- Verlag: Wiley & Sons
- ISBN-10: 1119632277
- ISBN-13: 9781119632276
Sprache:
Englisch
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