This paper presents the design and analysis of the compact patch antenna for 5G and future generation millimetre-wave communication system. The proposed design consists of FR4 substrate length, width, and height of 21.37 x 5 x 1.59 mm3, besides two rectangular slots incorporated with a dimension of 0.2 x 2.6 mm2 within the patch of 4.22 x 3.46 mm2, to enhance the resonance frequency more accurate and one more square slot incorporated in to feed line with the dimension of 0.2 x 0.5 mm2. The obtained return losses of the design is-21.25dB with gain and voltage standing wave ratio (VSWR) of 3.90dBi,1.18 by using a lumped port configuration. For the specific absorption rate (SAR) evaluation considered as a human head model in high-frequency structure simulator (HFSS) software, the obtained values are within the standard limit, the design covers the frequency range of 28GHz, this design may capable of 5G and next-generation wireless communication system application.
%0 Journal Article
%1 noauthororeditor
%A B.V.Naik,
%A Nath, Debojyoti
%A Sharma, Rina
%D 2021
%J International Journal of Antennas (JANT)
%K Human Patch Rectangular SAR antenna head model slot
%N 1
%P 15-23
%R 10.5121/jant.2021.7102
%T DESIGN AND ANALYSIS OF RECTANGULAR SLOT MICROSTRIP PATCH ANTENNA FOR MILLIMETREWAVE COMMUNICATION AND ITS SAR EVALUATION
%U https://airccse.com/jant/papers/7121jant02.pdf
%V 7
%X This paper presents the design and analysis of the compact patch antenna for 5G and future generation millimetre-wave communication system. The proposed design consists of FR4 substrate length, width, and height of 21.37 x 5 x 1.59 mm3, besides two rectangular slots incorporated with a dimension of 0.2 x 2.6 mm2 within the patch of 4.22 x 3.46 mm2, to enhance the resonance frequency more accurate and one more square slot incorporated in to feed line with the dimension of 0.2 x 0.5 mm2. The obtained return losses of the design is-21.25dB with gain and voltage standing wave ratio (VSWR) of 3.90dBi,1.18 by using a lumped port configuration. For the specific absorption rate (SAR) evaluation considered as a human head model in high-frequency structure simulator (HFSS) software, the obtained values are within the standard limit, the design covers the frequency range of 28GHz, this design may capable of 5G and next-generation wireless communication system application.
@article{noauthororeditor,
abstract = {This paper presents the design and analysis of the compact patch antenna for 5G and future generation millimetre-wave communication system. The proposed design consists of FR4 substrate length, width, and height of 21.37 x 5 x 1.59 mm3, besides two rectangular slots incorporated with a dimension of 0.2 x 2.6 mm2 within the patch of 4.22 x 3.46 mm2, to enhance the resonance frequency more accurate and one more square slot incorporated in to feed line with the dimension of 0.2 x 0.5 mm2. The obtained return losses of the design is-21.25dB with gain and voltage standing wave ratio (VSWR) of 3.90dBi,1.18 by using a lumped port configuration. For the specific absorption rate (SAR) evaluation considered as a human head model in high-frequency structure simulator (HFSS) software, the obtained values are within the standard limit, the design covers the frequency range of 28GHz, this design may capable of 5G and next-generation wireless communication system application.
},
added-at = {2023-08-24T10:59:07.000+0200},
author = {B.V.Naik and Nath, Debojyoti and Sharma, Rina},
biburl = {https://www.bibsonomy.org/bibtex/2624fb1aed8ea1b461658f129c77ff46c/ijant},
doi = {10.5121/jant.2021.7102},
interhash = {ed3b113814ac905868e426986c961ab6},
intrahash = {624fb1aed8ea1b461658f129c77ff46c},
issn = {2455 - 7897},
journal = {International Journal of Antennas (JANT)},
keywords = {Human Patch Rectangular SAR antenna head model slot},
language = {English},
month = {January},
number = 1,
pages = {15-23},
timestamp = {2023-08-24T10:59:07.000+0200},
title = {DESIGN AND ANALYSIS OF RECTANGULAR SLOT MICROSTRIP PATCH ANTENNA FOR MILLIMETREWAVE COMMUNICATION AND ITS SAR EVALUATION},
url = {https://airccse.com/jant/papers/7121jant02.pdf},
volume = 7,
year = 2021
}