Design of low-cost, circularly polarized, and wideband U-slot microstrip patch antenna with parasitic elements for WiGig and WPAN applications

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dc.AffiliationOctober University for modern sciences and Arts (MSA)
dc.contributor.authorIbrahim M.S.
dc.contributor.otherDepartment of Communications and Networks Engineering
dc.contributor.otherCollege of Engineering
dc.contributor.otherPrince Sultan University
dc.contributor.otherRiyadh
dc.contributor.other11586
dc.contributor.otherSaudi Arabia; Department of Electrical Communication and Electronic Systems Engineering
dc.contributor.otherCollege of Engineering
dc.contributor.otherModern Sciences and Arts University
dc.contributor.other6th October
dc.contributor.other12566
dc.contributor.otherEgypt
dc.date.accessioned2020-01-09T20:40:42Z
dc.date.available2020-01-09T20:40:42Z
dc.date.issued2019
dc.descriptionScopus
dc.description.abstractIn this article, a well matched U-Slot Microstrip Patch Antenna (MPA) with two paratactic elements is designed and simulated. The antenna is designed to resonate at 60 GHz (V-band) and exhibits a wideband extend from 53.3 GHz to 60.8 GHz with more than 87% total efficiency. The presence of U-slot makes a current perturbation in the antenna which contributes to generate a Circular Polarization (CP). The 3-dB Axial Ratio (AR) is extended from 56 � 57.2 GHz (~ 1.2 GHz bandwidth). The analysis and optimization processes throughout this paper are carried out using Finite Element Method (FEM) and verified with Finite Integration Technique (FIT). Good agreement between the results by the two simulators is obtained. Hence, the performance of the proposed antenna makes it a good candidate for fifth generation applications at V-band like Wireless Gigabit Alliance (WiGig) and Wireless Personal Area Network (WPAN). � ACESen_US
dc.description.urihttps://www.scimagojr.com/journalsearch.php?q=13200&tip=sid&clean=0
dc.identifier.issn10544887
dc.identifier.urihttps://t.ly/0wk3l
dc.language.isoEnglishen_US
dc.publisherApplied Computational Electromagnetics Society (ACES)en_US
dc.relation.ispartofseriesApplied Computational Electromagnetics Society Journal
dc.relation.ispartofseries34
dc.subjectCircular Polarizationen_US
dc.subjectMPAen_US
dc.subjectParasitic elementsen_US
dc.subjectU � sloten_US
dc.subjectV-banden_US
dc.subjectWiGigen_US
dc.subjectWPANen_US
dc.subjectCircular polarizationen_US
dc.subjectCostsen_US
dc.subjectMicrostrip antennasen_US
dc.subjectPersonal communication systemsen_US
dc.subjectSlot antennasen_US
dc.subjectWireless local area networks (WLAN)en_US
dc.subjectCircularly polarizeden_US
dc.subjectCurrent perturbationsen_US
dc.subjectFinite integration techniqueen_US
dc.subjectMicro-strip patch antennasen_US
dc.subjectParasitic elementen_US
dc.subjectWiGigen_US
dc.subjectWireless personal area networksen_US
dc.subjectWPANen_US
dc.subjectMicrowave antennasen_US
dc.titleDesign of low-cost, circularly polarized, and wideband U-slot microstrip patch antenna with parasitic elements for WiGig and WPAN applicationsen_US
dc.typeArticleen_US
dcterms.isReferencedByIbrahim, M.S., Low-cost, circularly polarized, and wideband U-slot microstrip patch antenna with parasitic elements for WiGig and WPAN applications (2019) 13th Euro. Conf. On Ant. On Prop. (EuCAP 2019), , Krakow, Poland, 31 Mar.-5 Apr; Rappaport, J.N.M.T.S., Gutierrez, F., State of the art in 60-GHz integrated circuits and systems for wireless communications (2011) Proceedings of the IEEE, 99, pp. 1390-1436; Zhou, R., Liu, D., Xin, H., A wideband circularly polarized patch antenna for 60 GHz wireless communications (2012) Wireless Engineering and Technology, 3 (3), p. 4; Lee, B., Yoon, Y., (2017) Low Profile, Low Cost, Broadband Millimeter-Wave Antenna Array for High Data Rate WPAN Systems, PP; Balanis, C.A., (2016) Antenna Theory: Analysis and Design, , 4th ed., John Wiley & Sons; Chin, K.-S., Li, E.S., Huayan, J., 60-GHz wideband LTCC microstrip patch antenna array with parasitic surrounding stacked patches (2018) IET Microwaves, Antennas & Propagation, p. 8; Wang, L., Guo, Y., Sheng, W., Wideband high-gain 60-GHz LTCC L-probe patch antenna array with a soft surface (2013) IEEE Transactions on Antennas and Propagation, 61, pp. 1802-1809; Chu, H., Guo, Y., Wang, Z., 60-GHz LTCC wideband vertical off-center dipole antenna and arrays (2013) IEEE Transactions on Antennas and Propagation, 61, pp. 153-161; Abdelaziz, A.A., Bandwidth enhancement of microstrip antenna (2006) Progress in Electromagnetics Research, PIER, 63, pp. 311-317; Lee, K.-F., Yang, S.S., Kishk, A.A., Luk, K.-M., Design and study of wideband single feed circularly polarized microstrip antennas (2008) Prog. In Electromag. Res. C, 80, pp. 45-61; Wi, S., Lee, Y., Yook, J., Wideband microstrip patch antenna with U-shaped parasitic elements (2007) IEEE Transactions on Antennas and Propagation, 55, pp. 1196-1199; Ibrahim, M.S., 2 circularly polarized MIMO antenna at ka-band for fifth generation applications (2019) Inter. Journal on Communications Antenna and Propagation (IRECAP), 9 (2); Dicandia, F.A., Genovesi, S., Monorchio, A., Analysis of the performance enhancement of MIMO systems employing circular polarization (2017) IEEE Transactions on Antennas and Propagation, 65, pp. 4824-4835; Wang, J., Lv, Z., Li, X., Analysis of MIMO diversity improvement using circular polarized antenna (2014) International Journal of Antennas and Propagation, 2014, p. 9; High Frequency Surface Structure (HFSS), , http://www.ansys.com, 15 ed.); CSTMicrowaveStudio2015, , https://www.cst.com/products/cstmws
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