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Conference Paper Investigation into the cross-polarization of loaded microstrip ring antennas
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Authors
Soon-Soo Oh, Lotfollah Shafai
Issue Date
2005-07
Citation
IEEE Antennas and Propagation Society International Symposium 2005, pp.243-246
Publisher
IEEE
Language
English
Type
Conference Paper
DOI
https://dx.doi.org/10.1109/APS.2005.1551293
Abstract
Among many microstrip antenna configurations, the closed-ring microstrip antenna can be considered as an intermediate structure between patch and printed loop antennas. As the ring width becomes narrower, the resonant frequency shifts downward, its TM/sub 11/ mode resistance increases to a few thousands of ohms and becomes impossible to match to a 50-/spl Omega/ impedance (Bafrooei, P.M. and Shafai, L., 1999). One way to feed a ring antenna is to use a loading mechanism. Stub loading, investigated by Garg, R. and Reddy, V.S., (see IEEE Trans. Antennas Propag., vol.51, no.8, p.1941-6, 2003), obtained good impedance matching using a 50-/spl Omega/ line. Other possible loading techniques however, such as notch, gap or shorting pins, have not yet been studied to our knowledge. Garg and Reddy observed that the stub loading mechanism increases the cross-polarization, as it disturbs the current distribution and generates another mode. However, our investigations by simulation and measurement have shown that some loading techniques could achieve low cross polarization, which is the subject of our investigation. For one stub loading, the cross polarization level was -10.8 dB, and decreased to -18.0 dB for two stubs. The simulated cross-polarizations for a gap and a shorting pin were -46.5 and -34.4 dB, respectively, but measured at -30.7 and -28.5 dB, because of limited measurement ability.
KSP Keywords
Cross Polarization Level, Cross polarization(CP), Loading mechanism, Loop antenna, Microstrip ring, Resonant frequency(Fr), Simulation and measurement, current distribution, frequency shift, impedance matching, low cross polarization