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Comparison of Different Types of Microstrip Patch Antennas

Published on August 2015 by Sumanpreet Kaur Sidhu, Jagtar Singh Sivia
journal_cover_thumbnail

International Conference on Advancements in Engineering and Technology
Foundation of Computer Science USA
ICAET2015 - Number 5
August 2015
Authors: Sumanpreet Kaur Sidhu, Jagtar Singh Sivia
060ca93b-ad13-41be-8f0e-82424deda37e

Sumanpreet Kaur Sidhu, Jagtar Singh Sivia . Comparison of Different Types of Microstrip Patch Antennas. International Conference on Advancements in Engineering and Technology. ICAET2015, 5 (August 2015), 12-16.

@article{
author = { Sumanpreet Kaur Sidhu, Jagtar Singh Sivia },
title = { Comparison of Different Types of Microstrip Patch Antennas },
journal = { International Conference on Advancements in Engineering and Technology },
issue_date = { August 2015 },
volume = { ICAET2015 },
number = { 5 },
month = { August },
year = { 2015 },
issn = 0975-8887,
pages = { 12-16 },
numpages = 5,
url = { /proceedings/icaet2015/number5/22235-4062/ },
publisher = {Foundation of Computer Science (FCS), NY, USA},
address = {New York, USA}
}
%0 Proceeding Article
%1 International Conference on Advancements in Engineering and Technology
%A Sumanpreet Kaur Sidhu
%A Jagtar Singh Sivia
%T Comparison of Different Types of Microstrip Patch Antennas
%J International Conference on Advancements in Engineering and Technology
%@ 0975-8887
%V ICAET2015
%N 5
%P 12-16
%D 2015
%I International Journal of Computer Applications
Abstract

In this paper, microstrip patch antennas with six different shapes i. e. rectangular, circular, square, elliptical, pentagonal and hexagonal are implemented using Ansoft HFSS version 13. 0. 0 software. Antennas are designed on Rogers RT/duroid 5880 material with dielectric constant 2. 2 and thickness 3. 2 mm. The different performance parameters such as return loss, gain and bandwidth of these antennas are compared. The operating frequency for all these antennas is taken 7. 5 GHz. All the antennas are fed with the probe feed. It is found that pentagonal microstrip patch antenna has better results at this frequency than all other shapes.

References
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  12. Pozar, M. and S. D. Targonski, "Improved Coupling for Aperture Coupled Microstrip Antennas," Electronics Letters, Vol. 27, No. 13, 1991, pp. 1129-1131.
  13. Lee, H. F. , Chen, W. , "Advances in Microstrip and Printed Antennas, New York", John Wiley & Sons, 1997.
  14. Pozar, D. M. and Kauffman, B. , "Increasing the bandwidth of microstrip antenna by proximity coupling," Electronics Letters, Vol. 23, No. 8, 1987 , pp. 368-369.
  15. Ansoft HFSS version 9: Overview, 2003.
  16. Chen, J. S. and Wong, K. L. , "A single-layer dual-frequency rectangular microstrip patch antenna using a single probe feed" Microwave Opt. Technol. Lett. , vol. 11, pp. 83-84, Feb. 5, 1996.
  17. 6x9 Handbook / Antenna Engineering Handbook / Volakis / 147574-5 / Chapter 7
Index Terms

Computer Science
Information Sciences

Keywords

Microstrip Patch Antenna Gain Return Loss Bandwidth.