A parasitic surface based wide beam width patch antenna

A parasitic surface (PS) based wide beam width patch antenna operating at 5 GHz is presented. The half-power beam widths (HPBWs) of the patch antenna are improved by the PS, which is composed of a parasitic ring and six parasitic patches. The parasitic ring is used to increase the HPBW in the E-plan...

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Autores principales: Qinlong Li, Yeqing Yin, Xiaoming Chen
Formato: article
Lenguaje:EN
Publicado: AIP Publishing LLC 2021
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Acceso en línea:https://doaj.org/article/1263c1fe328343a68812c82829f5e6a1
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spelling oai:doaj.org-article:1263c1fe328343a68812c82829f5e6a12021-12-01T18:52:06ZA parasitic surface based wide beam width patch antenna2158-322610.1063/5.0069428https://doaj.org/article/1263c1fe328343a68812c82829f5e6a12021-11-01T00:00:00Zhttp://dx.doi.org/10.1063/5.0069428https://doaj.org/toc/2158-3226A parasitic surface (PS) based wide beam width patch antenna operating at 5 GHz is presented. The half-power beam widths (HPBWs) of the patch antenna are improved by the PS, which is composed of a parasitic ring and six parasitic patches. The parasitic ring is used to increase the HPBW in the E-plane, while the six parasitic patches are used to increase the HPBW in the H-plane. Simulation results show that the PS has little effect on the impedance bandwidth of the patch antenna but can increase the HPBW by 66.7° (from 85.1° to 151.8°) in the E-plane and 88.7° (from 78.9° to 167.6°) in the H-plane at 5 GHz. At the same time, the PS decreases the boresight gain of the patch antenna from 5.42 to 3.06 dBi. Measurement results agree well with the simulation.Qinlong LiYeqing YinXiaoming ChenAIP Publishing LLCarticlePhysicsQC1-999ENAIP Advances, Vol 11, Iss 11, Pp 115320-115320-5 (2021)
institution DOAJ
collection DOAJ
language EN
topic Physics
QC1-999
spellingShingle Physics
QC1-999
Qinlong Li
Yeqing Yin
Xiaoming Chen
A parasitic surface based wide beam width patch antenna
description A parasitic surface (PS) based wide beam width patch antenna operating at 5 GHz is presented. The half-power beam widths (HPBWs) of the patch antenna are improved by the PS, which is composed of a parasitic ring and six parasitic patches. The parasitic ring is used to increase the HPBW in the E-plane, while the six parasitic patches are used to increase the HPBW in the H-plane. Simulation results show that the PS has little effect on the impedance bandwidth of the patch antenna but can increase the HPBW by 66.7° (from 85.1° to 151.8°) in the E-plane and 88.7° (from 78.9° to 167.6°) in the H-plane at 5 GHz. At the same time, the PS decreases the boresight gain of the patch antenna from 5.42 to 3.06 dBi. Measurement results agree well with the simulation.
format article
author Qinlong Li
Yeqing Yin
Xiaoming Chen
author_facet Qinlong Li
Yeqing Yin
Xiaoming Chen
author_sort Qinlong Li
title A parasitic surface based wide beam width patch antenna
title_short A parasitic surface based wide beam width patch antenna
title_full A parasitic surface based wide beam width patch antenna
title_fullStr A parasitic surface based wide beam width patch antenna
title_full_unstemmed A parasitic surface based wide beam width patch antenna
title_sort parasitic surface based wide beam width patch antenna
publisher AIP Publishing LLC
publishDate 2021
url https://doaj.org/article/1263c1fe328343a68812c82829f5e6a1
work_keys_str_mv AT qinlongli aparasiticsurfacebasedwidebeamwidthpatchantenna
AT yeqingyin aparasiticsurfacebasedwidebeamwidthpatchantenna
AT xiaomingchen aparasiticsurfacebasedwidebeamwidthpatchantenna
AT qinlongli parasiticsurfacebasedwidebeamwidthpatchantenna
AT yeqingyin parasiticsurfacebasedwidebeamwidthpatchantenna
AT xiaomingchen parasiticsurfacebasedwidebeamwidthpatchantenna
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