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A Monopole Antenna with Two Symmetric Strips for UWB Applications

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Swapnaja S. Patil, Veeresh G. Kasabegoudar. Published in Wireless.

A Monopole Antenna with Two Symmetric Strips for UWB Applications
Communications on Applied Electronics
Year of Publication: 2015
Publisher: Foundation of Computer Science (FCS), NY, USA
Series: Volume 3 Number 6
Authors: Swapnaja S. Patil, Veeresh G. Kasabegoudar
10.5120/cae2015651978
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Swapnaja S Patil and Veeresh G Kasabegoudar. Article: A Monopole Antenna with Two Symmetric Strips for UWB Applications. Communications on Applied Electronics 3(6):17-22, December 2015. Published by Foundation of Computer Science (FCS), NY, USA. BibTeX

@article{key:article,
	author = {Swapnaja S. Patil and Veeresh G. Kasabegoudar},
	title = {Article: A Monopole Antenna with Two Symmetric Strips for UWB Applications},
	journal = {Communications on Applied Electronics},
	year = {2015},
	volume = {3},
	number = {6},
	pages = {17-22},
	month = {December},
	note = {Published by Foundation of Computer Science (FCS), NY, USA}
}

Abstract

In this paper, a monopole antenna with two symmetric L strips is proposed. Closed rings on either side have been introduced to enhance the bandwidth of the proposed antenna. The antenna geometry is fed with a microstrip line. The proposed geometry is designed on easily available FR4_epoxy dielectric material and the dimensions of the dielectric substrate used are of 50 mm x 50 mm x 1 mm. Antenna geometry’s performance is investigated in the frequency range between 2 GHz to 7 GHz. To validate the design, proposed geometry was fabricated and tested. Antenna impedance bandwidth of 86.3% was obtained in the operating band of 2.5GHz to 6.3GHz. Measured results fairly agree with the simulated data.

References

  1. R. Ghatak, Optimised Evolution of Sierpinski Gasket Fractal Microstrip Antenna and Related Problems, Ph. D. Dissertation, Burdwan University.
  2. Rabindra K. Mishra, Dipak R.Poddar, Rowdra Ghatak, “Performance of Sierpinski fractal equitriangular loop antenna,” Proceedings of the NCC-2005, January 29-Feb01, pp.640- 643, IIT Kharagpur, 2005.
  3. W.-C. Liu, C.-C. Song, S.-H. Chung, and J.-L. Jaw, “Striploaded CPW-fed pentagonal antenna for GPS/WiMAX/WLAN applications,” Microwave Opt. Technol. Lett., vol.51, pp. 48–52, 2009.
  4. J.-F. Huang, M.-T. Wu, and J.-Y. Wen, “A compact triple-band antenna design for UMTS, WLAN and WiMAX applications,” Microwave Opt. Technol. Lett., vol. 51, pp. 2207–2212, 2009.
  5. Y.-C. Lee and J.-S. Sun, “Compact printed slot antennas for wireless dual and multi-band operations,” Progress In Electromagnetics Research, vol. 88, pp. 289–305, 2008.
  6. S. Gai, Y.-C. Jiao, Y.-B. Yang, C.-Y. Li, and J.-G. Gong, “Design of a novel microstrip-fed dual-band slot antenna for WLAN applications,” Progress in Electromagnetics Research Letters, vol. 13, pp. 75–81, 2010.
  7. L. Kang, Y.-Z. Yin, S.-T. Fan, and S.-J. Wei, “A novel rectangular slot antenna with embedded self-similar T-shaped strips for WLAN applications,” Progress in Electromagnetics Research Letters, vol. 15,19–26,2010.
  8. W. Ren, “Compact dual-band slot antenna for 2.4/5GHz WLAN applications,” Progress in Electromagnetics Research B, vol. 8, pp. 319–327, 2008.
  9. W.-C. Liu, C.-C. Song, S.-H. Chung, and J.-L. Jaw, “Strip loaded CPW-fed pentagonal antenna for GPS/WiMAX/WLAN applications,” Microwave Opt. Technol. Lett., vol.51, pp. 48–52, 2009.
  10. K. George Thomas, and M. Sreenivasan, “A novel triple band printed antenna for WLAN/WiMAX applications,” Microwave Opt. Technol. Lett., vol. 51, pp. 2481–2485, 2009.
  11. W.-S. Chen, and Y.-H. Yu, “Compact design of T-type monopole antenna with asymmetrical ground plane for WLAN/WiMAX applications,” Microwave Opt. Technol. Lett., vol. 50, pp. 515–519, 2008.
  12. C. Mahatthanajatuphat, S. Saleekaw, and P. Akkaraekthalin, “A rhombic patch monopole antenna with modified minkowski fractal geometry for UMTS, WLAN, and mobile WiMAX applications,” Progress in Electromagnetic Research, vol. 89, pp. 57–74, 2009.
  13. X. Li, L. Yang, S.-X. Gong, and Y.-J. Yang, “Bidirectional high gain antenna for WLAN applications,” Progress In Electromagnetics Research Letters, vol. 6, pp. 99–106, 2009.
  14. Y. Song, Y.-C. Jiao, G. Zhao, and F.-S. Zhang, “Multiband CPW-fed triangle-shaped monopole antenna for wireless applications,” Progress in Electromagnetic Research, vol. 70, pp. 329–336, 2007.
  15. J.-Han Yoon, Young-Chul Rhee, Woo-Su Kim, “A Rectangular Ring, Open-Ended Monopole Antenna with Two Symmetric Strips for WLAN and WiMAX Applications,” International Journal of Antennas and Propagation, vol. 2013, 2013.

Keywords

Monopole antenna, Microstrip antenna, and Ultra-wideband operation