Title :
Effect of a finite ground plane on radiated emissions from a circular loop antenna
Author :
Hejase, Hassan A N ; Gedney, Stephen D. ; Whites, Keith W.
Author_Institution :
Istituto Tecnol. y de Estudios Superiores, Monterey, Mexico
fDate :
11/1/1994 12:00:00 AM
Abstract :
A thin-wire circular loop antenna located above a perfectly conducting square plate is analyzed by a physical optics (PO) method. The electric field integral equation (EFIE) is solved using the method of moments to compute the current on the loop in the presence of an infinite ground plane whereby the edge effects of the plate on the loop current are neglected. The current distribution on the loop is obtained from a full-wave Fourier series analysis which requires no matrix inversion. We then use physical optics to compute the current induced on the plate in terms of the incident magnetic-field intensity. Our aim is to compare the PO solution with results obtained from a mixed wire-patch MOM code and explore its accuracy as a function of plate size and loop height. The benefits are considerable reduction in analytical and computational efforts and much less CPU time
Keywords :
antenna radiation patterns; current distribution; electric fields; electromagnetic induction; integral equations; loop antennas; method of moments; physical optics; EFIE; PO solution; current distribution; finite ground plane; full-wave Fourier series analysis; incident magnetic-field intensity; induced current; infinite ground plane; loop current; loop height; method of moments; perfectly conducting square plate; physical optics; plate size; radiated emissions; thin-wire circular loop antenna; wire-patch MOM code; Dipole antennas; Fourier series; Integral equations; Magnetic analysis; Moment methods; Optical computing; Physical optics; Physics computing; Transmitting antennas; Wire;
Journal_Title :
Electromagnetic Compatibility, IEEE Transactions on
