Title :
Far-Field Approximation of Electrically Moderate-Sized Structures by Infinitesimal Electric and Magnetic Dipoles
Author :
Fan, Hongmei ; Schlagenhaufer, Franz
Author_Institution :
Sch. of Electr., Univ. of Western Australia, Perth, WA, Australia
Abstract :
The far field (FF) of electrically moderate-sized structures can be reconstructed by a small number of infinitesimal electric and magnetic dipoles. As an example, the field of a current loop with a perimeter up to 1.5 ¿ is approximated with two dipoles, the parameters of which are found analytically and using a genetic algorithm, respectively. The radiation of a rectangular power-ground plane pair is approximated by dipoles for various frequencies. The minimum number of dipoles needed for a good reconstruction depends on the complexity of the FF, and thus, on the electrical size, in terms of wavelength, of the structure. An estimate for the number of dipoles is given in the conclusion.
Keywords :
electromagnetic compatibility; genetic algorithms; magnetic moments; electrically moderate-sized structures; electromagnetic compatibility; far-field approximation; genetic algorithm; infinitesimal electric dipoles; magnetic dipoles; Algorithm design and analysis; Electromagnetic compatibility; Electromagnetic measurements; Electromagnetic radiation; Electromagnetic waveguides; Flexible printed circuits; Frequency; Genetic algorithms; Magnetic analysis; Magnetic field measurement; Noise measurement; Electrically moderate-sized structure; electric dipole; far-field decomposition; far-field radiation; genetic algorithm (GA); magnetic dipole; number of dipoles;
Journal_Title :
Electromagnetic Compatibility, IEEE Transactions on
DOI :
10.1109/TEMC.2009.2036004
