Читать книгу RF/Microwave Engineering and Applications in Energy Systems - Abdullah Eroglu - Страница 2

1  Cover

2  Title Page

3  Copyright page

4  Dedication

5  Preface

6  Biography

7  Acknowledgments

8  About the Companion Website

9  1 Fundamentals of Electromagnetics 1.1 Introduction 1.2 Line, Surface, and Volume Integrals 1.3 Vector Operators and Theorems 1.4 Maxwell's Equations 1.5 Time Harmonic Fields References Problems

10  2 Passive and Active Components 2.1 Introduction 2.2 Resistors 2.3 Capacitors 2.4 Inductors 2.5 Semiconductor Materials and Active Devices 2.6 Engineering Application Examples References Problems

11  3 Transmission Lines 3.1 Introduction 3.2 Transmission Line Analysis 3.3 Smith Chart 3.4 Microstrip Lines 3.5 Striplines 3.6 Engineering Application Examples References Problems

12  4 Network Parameters 4.1 Introduction 4.2 Impedance Parameters – Z Parameters 4.3 Y Admittance Parameters 4.4 ABCD Parameters 4.5 h Hybrid Parameters 4.6 Network Connections 4.7 MATLAB Implementation of Network Parameters 4.8 S ‐Scattering Parameters 4.9 Measurement of S Parameters 4.10 Chain Scattering Parameters 4.11 Engineering Application Examples References Problems

13  5 Impedance Matching 5.1 Introduction 5.2 Impedance Matching Network with Lumped Elements 5.3 Impedance Matching with a Smith Chart – Graphical Method 5.4 Impedance Matching Network with Transmission Lines 5.5 Impedance Transformation and Matching between Source and Load Impedances 5.6 Bandwidth of Matching Networks 5.7 Engineering Application Examples References Problems

14  6 Resonator Circuits 6.1 Introduction 6.2 Parallel and Series Resonant Networks 6.3 Practical Resonances with Loss, Loading, and Coupling Effects 6.4 Coupling of Resonators 6.5 LC Resonators as Impedance Transformers 6.6 Tapped Resonators as Impedance Transformers 6.7 Engineering Application Examples References Problems

15  7 Couplers, Combiners, and Dividers 7.1 Introduction 7.2 Directional Couplers 7.3 Multistate Reflectometers 7.4 Combiners and Dividers 7.5 Engineering Application Examples References Problems

16  8 Filters 8.1 Introduction 8.2 Filter Design Procedure 8.3 Filter Design by the Insertion Loss Method 8.4 Stepped Impedance Low Pass Filters 8.5 Stepped Impedance Resonator Bandpass Filters 8.6 Edge/Parallel‐coupled, Half‐wavelength Resonator Bandpass Filters 8.7 End‐Coupled, Capacitive Gap, Half‐Wavelength Resonator Bandpass Filters 8.8 Tunable Tapped Combline Bandpass Filters 8.9 Dual Band Bandpass Filters using Composite Transmission Lines 8.10 Engineering Application Examples References Problems

17  9 Waveguides 9.1 Introduction 9.2 Rectangular Waveguides 9.3 Cylindrical Waveguides 9.4 Waveguide Phase Shifter Design 9.5 Engineering Application Examples References Problems

18  10 Power Amplifiers 10.1 Introduction 10.2 Amplifier Parameters 10.3 Small Signal Amplifier Design 10.4 Engineering Application Examples References Problems

19  11 Antennas 11.1 Introduction 11.2 Antenna Parameters 11.3 Wire Antennas 11.4 Microstrip Antennas 11.5 Engineering Application Examples References Problems

20  12 RF Wireless Communication Basics for Emerging Technologies 12.1 Introduction 12.2 Wireless Technology Basics 12.3 Standard Protocol vs Proprietary Protocol 12.4 Overview of Protocols 12.5 RFIDs 12.6 RF Technology for Implantable Medical Devices 12.7 Engineering Application Examples References

21  13 Energy Harvesting and HVACSystems with RF Signals 13.1 Introduction 13.2 RF Energy Harvesting 13.3 RF Energy Harvesting System Design for Dual Band Operation 13.4 Diode Threshold V _th Cancellation 13.5 HVAC Systems 13.6 Engineering Application Examples References

22  Index

23  End User License Agreement