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Reseach Article

Formulations for Hexagon Shaped Ultra Wide Band Antennas

Published on February 2016 by Amit A. Deshmukh, Ami A. Desai, S.a. Shaikh, K.a. Lele, S. Agrawal
CAE Proceedings on International Conference on Communication Technology
Foundation of Computer Science USA
ICCT2015 - Number 2
February 2016
Authors: Amit A. Deshmukh, Ami A. Desai, S.a. Shaikh, K.a. Lele, S. Agrawal
ec7d3cfa-b091-4c09-91b2-b0e3b870ceb1

Amit A. Deshmukh, Ami A. Desai, S.a. Shaikh, K.a. Lele, S. Agrawal . Formulations for Hexagon Shaped Ultra Wide Band Antennas. CAE Proceedings on International Conference on Communication Technology. ICCT2015, 2 (February 2016), 0-0.

@article{
author = { Amit A. Deshmukh, Ami A. Desai, S.a. Shaikh, K.a. Lele, S. Agrawal },
title = { Formulations for Hexagon Shaped Ultra Wide Band Antennas },
journal = { CAE Proceedings on International Conference on Communication Technology },
issue_date = { February 2016 },
volume = { ICCT2015 },
number = { 2 },
month = { February },
year = { 2016 },
issn = 2394-4714,
pages = { 0-0 },
numpages = 1,
url = { /proceedings/icct2015/number2/527-0175/ },
publisher = {Foundation of Computer Science (FCS), NY, USA},
address = {New York, USA}
}
%0 Proceeding Article
%1 CAE Proceedings on International Conference on Communication Technology
%A Amit A. Deshmukh
%A Ami A. Desai
%A S.a. Shaikh
%A K.a. Lele
%A S. Agrawal
%T Formulations for Hexagon Shaped Ultra Wide Band Antennas
%J CAE Proceedings on International Conference on Communication Technology
%@ 2394-4714
%V ICCT2015
%N 2
%P 0-0
%D 2016
%I Communications on Applied Electronics
Abstract

A hexagonal ultra wide antenna has been studied. First, the hexagon has been fed at one of its vertices and the effect of change in dimensions has been observed. An optimum bandwidth of 14 GHz has been obtained. Next, an equivalent circular ultra wide-band antenna is designed and current distribution at TM11and TM21 mode is studied. Lastly frequency formulation for vertex-fed hexagonal antenna at TM11and TM21 mode is presented. The frequencies calculated using the same closely agrees with the simulated results. Thus proposed formulations can be used to realize ultra-wide band hexagonal antenna from the desired frequency range.

References
  1. Kumar, G. and Ray, K. P. 2003. Broadband Microstrip Antenna
  2. Amit A. Deshmukh, Ami. A. Desai, S. A. Shaikh, K. Lele, S B. Nagarbowdi, N. V. Phatak, S. Agrawal, "Analysis of Hexagon Shaped Ultra Wide Band Antennas", Proceedings of ICCT-2015, 25th and 26th September 2015, Mumbai, India, (IJCA – ICCT-2015, No. 6, pp. 15 – 18,September2015,http://www. ijcaonline. org/proceedings/icct2015/number6/22673-1578, ISBN : 973-93-80888-64-4.
  3. Cengizham, M. D. , Sibel, C. and Gonca, C. 2013. An Octagonal Shaped Ultra Wide Band Antenna With Reduced RCS , second International Japan-Egypt conference on electronics, Communications and Computers (JEC-ECC)
  4. Li, C. , Zhang, Y. , Li, Y. , Wang, S. and Liao, X. 2011. Volcano Smoke Planar Ultra-Wide Band Antenna, International Conference on Electronic & Mechanical Engineering and Information Technology
  5. Chen, Y. , Wei, H. and Zhenqi, K. 2008. Multiple Stopbands Ultra Wide Band Antenna , ICMMT Proceedings
  6. Yuan, Y. , and Zhenghe, F. 2006. A Novel Band-Notched Ultra-Wideband Microstrip-Line Fed Wide-Slot Antenna , Proceedings of Asia-Pacific Microwave Conference
  7. Begaud, X. Ultra Wideband Wide Slot Antenna with Band-Rejection Characteristics.
  8. L. H. Weng, Y. C. Guo, X. W. Shi and X. Q. Chen, "An overview on defected ground structures", Progress in Electromagnetic Research B, vol. 7, 2008.
  9. J. Liang, C. C. Chiau, X. D. Chen, and C. G. Parini, "Study of a printed circular disc monopole antenna for UWB systems", IEEE Trans. Antennas & Propagation, vol. 53, 2005, pp. 3500 –3504.
  10. K. P. Ray and Y. Ranga, "Printed rectangular monopole antennas", IEEE Antenna Propag Soc Int Symp, 2006, pp. 1693–1696.
  11. P. Li, J. Liang, and X. Chen, "Study of printed elliptical/ circular slot antennas for ultra wideband applications, IEEE Trans. Antennas & Propagation, vol. 54, 2006, pp. 1670–1675.
  12. J. P. Zhang, Y. S. Xu, and W. D. Wang, "Ultra wideband microstrip fed planar elliptical dipole antenna", Electron Letters, vol. 42, 2006, pp. 144–145.
  13. K. L. Wong and Y. F. Lin, "Stripline-fed printed triangular monopole", Electron Letters, vol. 33, 1997, pp. 1428–1429.
  14. J. R. Verbiest and G. A. E. Vandenbosch, "Small-size planar triangular monopole antenna for UWB WBAN applications", Electron Letters, 42, 2006, pp. 566–567.
  15. Tao Hong, Shu-Xi Gong, Wen Jiang, and Ying Liu, "A novel monopole antenna for ultra-wide band application", Microwave And Optical Technology Letters Vol. 52, No. 12, December 2010, pp. 2694 – 2696.
Index Terms

Computer Science
Information Sciences

Keywords

Ultra wide-band micro strip antenna planar monopole antenna hexagon ultra wide band antenna