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Tri-band compact ACS-fed meander-line antenna for wireless communications

Published online by Cambridge University Press:  24 July 2017

Ayman Ayd R. Saad ,
Ahmed A. Ibrahim ,
Osama M. Haraz  and
Ayman Elboushi
Ayman Ayd R. Saad*
Affiliation:
Kosseir Radio, Telecom Egypt, Kosseir 84712, Egypt
Ahmed A. Ibrahim
Affiliation:
Electrical Engineering Department, Minia University, Minia 61519, Egypt
Osama M. Haraz
Affiliation:
Electrical Engineering Department, Assiut University, Assiut 71516, Egypt
Ayman Elboushi
Affiliation:
Prince Sultan Advanced Tech. Research Institute (PSATRI), KSA, Riyadh 11421, Saudi Arabia Electronics Research Institute (ERI), Giza 12622, Egypt
*
Corresponding author: A.R. Saad Email: [email protected]
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Abstract

In this paper, a compact tri-band asymmetric coplanar strip (ACS)-fed meander-line antenna for wireless communications is proposed. Two inverted-L-shaped resonators are added to a simple meandered radiator for standard tri-band operation. Parametric studies indicate that operating frequencies of the proposed antenna are determined by the dimensions of the two inverted-L-shaped resonators. The measured results show that the proposed antenna can achieve three frequency bands; i.e. 1.48–1.63, 2.25–2.48, and 4.22–6.0 GHz. These bands can successfully cover the global positioning system L1, wireless local area network (WLAN), and HIPERLAN/2 operation bands, respectively. The proposed antenna exhibits good radiation patterns with reasonable gain and high radiation efficiency across the operating bands. In addition, the proposed antenna has compact size and simple feeding scheme, which make it suitable to be integrated within the portable device for wireless communications.

Keywords

Asymmetric coplanar strip (ACS)-fedMeander-lineTri-bandGPS L1WLANHIPERLAN/2
Type
Research Papers
Information
International Journal of Microwave and Wireless Technologies , Volume 9 , Issue 9 , November 2017 , pp. 1895 - 1903
Copyright
Copyright © Cambridge University Press and the European Microwave Association 2017 

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