RF and Microwave Engineering
Fundamentals of Wireless Communications
(Sprache: Englisch)
This book discusses a wide range of RF topics with emphasis on physical aspects, including EM and voltage waves, transmission lines, passive circuits, antennas.
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Produktinformationen zu „RF and Microwave Engineering “
This book discusses a wide range of RF topics with emphasis on physical aspects, including EM and voltage waves, transmission lines, passive circuits, antennas.
Klappentext zu „RF and Microwave Engineering “
This book provides a fundamental and practical introduction to radio frequency and microwave engineering and physical aspects of wireless communicationIn this book, the author addresses a wide range of radio-frequency and microwave topics with emphasis on physical aspects including EM and voltage waves, transmission lines, passive circuits, antennas, radio wave propagation. Up-to-date RF design tools like RF circuit simulation, EM simulation and computerized smith charts, are used in various examples to demonstrate how these methods can be applied effectively in RF engineering practice.
Design rules and working examples illustrate the theoretical parts. The examples are close to real world problems, so the reader can directly transfer the methods within the context of their own work. At the end of each chapter a list of problems is given in order to deepen the reader's understanding of the chapter material and practice the new competences. Solutions are available on the author's website.
Key Features:
* Presents a wide range of RF topics with emphasis on physical aspects e.g. EM and voltage waves, transmission lines, passive circuits, antennas
* Uses various examples of modern RF tools that show how the methods can be applied productively in RF engineering practice
* Incorporates various design examples using circuit and electromagnetic (EM) simulation software
* Discusses the propagation of waves: their representation, their effects, and their utilization in passive circuits and antenna structures
* Provides a list of problems at the end of each chapter
* Includes an accompanying website containing solutions to the problems (http:\www.fh-dortmund.degustrau_rf_textbook)
This will be an invaluable textbook for bachelor and masters students on electrical engineering courses (microwave engineering, basic circuit theory and electromagnetic fields, wireless communications). Early-stage RF practitioners, engineers (e.g. application
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engineer) working in this area will also find this book of interest.
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Inhaltsverzeichnis zu „RF and Microwave Engineering “
PrefaceList of Abbreviations
List of Symbols
1 Introduction
1.1 Radiofrequency and Microwave Applications
1.2 Frequency Bands
1.3 Physical Phenomena in the High Frequency Domain
1.3.1 Electrically Short Transmission Line
1.3.2 Transmission Line with Length Greater than One-Tenth of Wavelength
1.3.3 Radiation and Antennas
1.4 Outline of the Following Chapters
References
Further Reading
2 Electromagnetic Fields and Waves
2.1 Electric and Magnetic Fields
2.1.1 Electrostatic Fields
2.1.2 Steady Electric Current and Magnetic Fields
2.1.3 Differential Vector Operations
2.2 Maxwell's Equations
2.2.1 Differential Form in the Time Domain
2.2.2 Differential Form for Harmonic Time Dependence
2.2.3 Integral Form
2.2.4 Constitutive Relations and Material Properties
2.2.5 Interface Conditions
2.3 Classification of Electromagnetic Problems
2.3.1 Static Fields
2.3.2 Quasi-static Fields
2.3.3 Coupled Electromagnetic Fields
2.4 Skin Effect
2.5 Electromagnetic Waves
2.5.1 Wave Equation and Plane Waves
2.5.2 Polarization of Waves
2.5.3 Reflection and Refraction
2.5.4 Spherical Waves
2.6 Summary
2.7 Problems
References
Further Reading
3 Transmission Line Theory and Transient Signals on Lines
3.1 Transmission Line Theory
3.1.1 Equivalent Circuit of a Line Segment
3.1.2 Telegrapher's Equation
3.1.3 Voltage and Current Waves on Transmission Lines
3.1.4 Load-Terminated Transmission Line
3.1.5 Input Impedance
3.1.6 Loss-less Transmission Lines
3.1.7 Low Loss Transmission Lines
3.1.8 Transmission Line with Different Terminations
3.1.9 Impedance Transformation with
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Loss-less Lines
3.1.10 Reflection Coefficient
3.1.11 Smith Chart
3.2 Transient Signals on Transmission Lines
3.2.1 Step Function
3.2.2 Rectangular Function
3.3 Eye Diagram
3.4 Summary
3.5 Problems
References
Further Reading
4 Transmission Lines and Waveguides
4.1 Overview
4.2 Coaxial Line
4.2.1 Specific Inductance and Characteristic Impedance
4.2.2 Attenuation of Low Loss Transmission Lines
4.2.3 Technical Frequency Range
4.2.4 Areas of Application
4.3 Microstrip Line
4.3.1 Characteristic Impedance and Effective Permittivity
4.3.2 Dispersion and Technical Frequency Range
4.3.3 Areas of Application
4.4 Stripline
4.4.1 Characteristic Impedance
4.4.2 Technical Frequency Range
4.5 Coplanar Line
4.5.1 Characteristic Impedance and Effective Permittivity
4.5.2 Coplanar Waveguide over Ground
4.5.3 Coplanar Waveguides and Air Bridges
4.5.4 Technical Frequency Range
4.5.5 Areas of Application
4.6 Rectangular Waveguide
4.6.1 Electromagnetic Waves between Electric Side Walls
4.6.2 Dominant Mode (TE10)
4.6.3 Higher Order Modes
4.6.4 Areas of Application
4.6.5 Excitation of Waveguide Modes
4.6.6 Cavity Resonators
4.7 Circular Waveguide
4.8 Two-Wire Line
4.8.1 Characteristic Impedance
4.8.2 Areas of Application
4.9 Three-Conductor Transmission Line
3.1.10 Reflection Coefficient
3.1.11 Smith Chart
3.2 Transient Signals on Transmission Lines
3.2.1 Step Function
3.2.2 Rectangular Function
3.3 Eye Diagram
3.4 Summary
3.5 Problems
References
Further Reading
4 Transmission Lines and Waveguides
4.1 Overview
4.2 Coaxial Line
4.2.1 Specific Inductance and Characteristic Impedance
4.2.2 Attenuation of Low Loss Transmission Lines
4.2.3 Technical Frequency Range
4.2.4 Areas of Application
4.3 Microstrip Line
4.3.1 Characteristic Impedance and Effective Permittivity
4.3.2 Dispersion and Technical Frequency Range
4.3.3 Areas of Application
4.4 Stripline
4.4.1 Characteristic Impedance
4.4.2 Technical Frequency Range
4.5 Coplanar Line
4.5.1 Characteristic Impedance and Effective Permittivity
4.5.2 Coplanar Waveguide over Ground
4.5.3 Coplanar Waveguides and Air Bridges
4.5.4 Technical Frequency Range
4.5.5 Areas of Application
4.6 Rectangular Waveguide
4.6.1 Electromagnetic Waves between Electric Side Walls
4.6.2 Dominant Mode (TE10)
4.6.3 Higher Order Modes
4.6.4 Areas of Application
4.6.5 Excitation of Waveguide Modes
4.6.6 Cavity Resonators
4.7 Circular Waveguide
4.8 Two-Wire Line
4.8.1 Characteristic Impedance
4.8.2 Areas of Application
4.9 Three-Conductor Transmission Line
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Bibliographische Angaben
- Autor: Frank Gustrau
- 2012, 2. Aufl., XX, 338 Seiten, mit Abbildungen, Masse: 17 x 24,4 cm, Kartoniert (TB), Englisch
- Verlag: Wiley & Sons
- ISBN-10: 1119951712
- ISBN-13: 9781119951711
- Erscheinungsdatum: 30.07.2012
Sprache:
Englisch
Rezension zu „RF and Microwave Engineering “
"Summing Up: Recommended. Upper-division undergraduates, graduate students, two-year technical program students, researchers/faculty, and professionals/practitioners." ( Choice , 1 March 2013)
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"Summing Up: Recommended. Upper-division undergraduates, graduate students, two-year technical program students, researchers/faculty, and professionals/practitioners." ( Choice , 1 March 2013)Kommentar zu "RF and Microwave Engineering"
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