The paper proposes a novel technique to enhance the performance of circular patch antennas by embedding a system of cylindrical impedance surfaces within the antenna structure. An analytical model is developed to calculate the input impedance of a patch antenna with an arbitrary number of impedance surfaces.
The key highlights are:
The analytical model facilitates solving both analysis and synthesis problems for circular patch antennas with embedded impedance surfaces.
Two examples are demonstrated:
Compared to the state-of-the-art method using multi-element microstrip matching circuits, the proposed technique provides 0.6 dB higher radiation efficiency on average within the band, while not consuming any additional space outside the radiator.
The developed analytical model combined with optimization methods can be used to precisely tailor the frequency response of compact patch antennas, enabling multi-band, bandpass, notch-filter, and other complex characteristics.
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by Mikhail Siga... om arxiv.org 10-03-2024
https://arxiv.org/pdf/2410.01722.pdfDiepere vragen