An integral equation approach to the analysis of finite microstrip antennas: volume/surface formulation

Author

Sarkar, T.K. ; Arvas, E.

Author_Institution

Dept. of Electr. Eng., Syracuse Univ., NY, USA

Volume

38

Issue

3

fYear

1990

fDate

3/1/1990 12:00:00 AM

Firstpage

305

Lastpage

312

Abstract

An E-field integral equation for the analysis of finite printed circuit antennas with multiple dielectric regions is developed. In this analysis, the ground plane is considered to be finite. The dielectric substrates may be either lossless or lossy, and they may be inhomogeneous but must be finite. The equivalence principle is used to replace all conducting bodies by equivalent surface electric currents and all dielectrics by equivalent volume polarization currents. The respective boundary conditions on the dielectrics and the conductors are utilized to solve for the electric current on the entire structure. Typical results are presented to illustrate the potential of this method.<>

Keywords

antenna radiation patterns; antenna theory; integral equations; microstrip antennas; E-field integral equation; boundary conditions; dielectric substrates; equivalence principle; equivalent surface electric currents; equivalent volume polarization currents; far field patterns; finite microstrip antennas; integral equation approach; lossless substrates; lossy substrates; multiple dielectric regions; printed circuit antennas; Conducting materials; Conductors; Current; Dielectric losses; Dielectric materials; Electromagnetic scattering; Integral equations; Microstrip antennas; Permittivity; Polarization;

fLanguage

English

Journal_Title

Antennas and Propagation, IEEE Transactions on

Publisher

ieee

ISSN

0018-926X

Type

jour

DOI

10.1109/8.52238

Filename

52238