Title :
Analysis of infinite arrays of substrate-supported metal strip antennas
Author :
Parfitt, Andrew J. ; Griffin, Donald W. ; Cole, Peter H.
Author_Institution :
Dept. of Electr. & Electron. Eng., Adelaide Univ., SA, Australia
fDate :
2/1/1993 12:00:00 AM
Abstract :
An electric field integral equation method is applied to a metal strip antenna on an electrically thick dielectric substrate of finite size in a uniform infinite array environment. An efficient solution is found using the method of moments. Metal strip folded dipole antennas are analyzed both with and without a coplanar strip feed line, and the effects of the substrate and feed line are investigated. A technique for minimizing the effect of feed line scattering is presented, and arrays of these elements are shown to be capable of good scanning performance over a wide range of beam-steer angles. A phased array simulator experiment is described and the measured results show good agreement with those obtained by analysis. The class of antenna elements studied may be fabricated using monolithic microwave integrated circuit (MMIC) technology, and the analysis described illustrates the expected characteristics for millimeter-wavelength phased arrays of this type
Keywords :
MMIC; antenna feeders; antenna phased arrays; antenna theory; dipole antennas; integral equations; microstrip antennas; microwave antenna arrays; numerical analysis; scanning antennas; EFIE; MM wave; MMIC technology; beam-steer angles; coplanar strip feed line; electric field integral equation; electrically thick dielectric substrate; folded dipole antennas; infinite arrays; metal strip antennas; method of moments; monolithic microwave integrated circuit; phased array simulator experiment; phased arrays; scanning performance; Antenna arrays; Antenna feeds; Dielectric substrates; Dipole antennas; Integral equations; MMICs; Microwave antenna arrays; Moment methods; Phased arrays; Scattering;
Journal_Title :
Antennas and Propagation, IEEE Transactions on
