The patch is generally made of conducting material such as copper and gold (Wikipedia, 2010). INTRODUCTION Microstrip antennas basically consist of a radiating patch on one side of a dielectric substrate, which has a ground plane on the other side. This study have discussed assessment of these tradeoffs and effect of TCOMs parameters on antenna design. Keywords: Circular Microstrip Patch Antenna Design. Microstrip transmission line feed method is used to predict the skin effects on a patch antenna and their impact on antenna efficiency, resonance frequency and optical transmission are also described. The tradeoff between optical transparency and electrical conductivity will be evaluated for a range of visible regions. As well as the study have investigated the effect of transparent oxide materials on patch antenna design instead of perfect conductor materials such as copper that has low cost and weight. Microstrip patch antennas radiate primarily because of the fringing fields between the patch edge and the ground plane. extended electric fringing fields which increase the electrical length of the antenna slightly. ![]() This paper has presented transparent conductor oxide materials (TCOMs) based microstrip patch antennas with glass substrate and copper ground plane, which have been deeply analyzed in the visible spectrum region in comparison with the practical patch antenna model of indium tin oxide patch with glass substrate and different TCOMs based ground plane. Patch antennas can easily be designed to have vertical.
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