Problem Solving in Electromagnetics, Microwave Circuit, and Antenna Design for Communications EngineeringPresenting a wide range of real-world electromagnetics problems, this one-of-a-kind resource offers professionals and students complete, step-by-step solutions to the most critical challenges relating to antenna and microwave circuit design. The book serves as a practical standalone reference or as a perfect complement to the text Electromagnetics, Microwave Circuit, and Antenna Design for Communications Engineering, Second Edition by Peter Russer (Artech House, 2006). Readers find in-depth coverage of the concepts, methods and theorems they need to understand to effectively tackle critical problems in the field. Including numerous graphical illustrations and simplifying mathematical computations, the book offers a deep and intuitive understanding of the subject. |
Contents
Chapter 2 | 29 |
Potentials and Waves | 47 |
Concepts Methods and Theorems | 79 |
Copyright | |
13 other sections not shown
Common terms and phrases
active power Ampère's law boundary condition C₁ capacitance capacitor characteristic impedance Chebyshev coaxial complex Compute conductor Consider coordinate cutoff frequency cylindrical derivative dielectric differential equation differential forms e-jkr electric and magnetic electric field intensity electromagnetic field energy equivalent circuit excited exterior derivative field components flux density free space given Green's function grid Helmholtz equation Hertz Hertz form Hertzian dipole incident inductor input integral linear lossless low-pass magnetic field Maxwell's equations mode multiport obtain one-form parameters plane wave polarization port Poynting vector Problem radiation pattern reactance rectangular reflection coefficient region resonant circuit scattering matrix series resonant shown in Figure Solution surface terminated time-harmonic transmission line transverse two-form two-port unit length voltage wave amplitudes wave equation wave impedance wave propagating waveguide wavelength z-direction Z₁ ду