Title :
Probe compensation in thick microstrip patches
Author_Institution :
Royal Military College of Science, School of Electrical Engineering & Science, Swindon, UK
Abstract :
In thick microstrip patches, probe inductance prevents matching of the patch impedance to the input connector. The probe inductance can be tuned out with a capacitive gap. To maintain simplified construction the gap is here etched on the patch surface. Bandwidths equal to or greater than that theoretically predicted are realised. Use of a single probe-compensated feed results in radiation pattern distortion, high crosspolarisation and low efficiency due both to higher-order modes and surface-wave generation. Two-probe feeding is used here to overcome these problems and to give a wide-band antenna with good radiation pattern control and high efficiency.
Keywords :
antenna feeders; antenna radiation patterns; antenna theory; compensation; microwave antennas; strip line components; capacitive gap; crosspolarisation; efficiency; higher-order modes; patch impedance; probe compensation; probe inductance; probe-compensated feed; radiation pattern control; radiation pattern distortion; surface-wave generation; thick microstrip patches; two probe feed; wide-band antenna;
Journal_Title :
Electronics Letters
DOI :
10.1049/el:19870434
