ection id="u96501b3c-8f05-5ea6-b179-c0e94074bcdb">
Table of Contents
1 Cover
5 Preface
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