Call for Paper

CAE solicits original research papers for the October 2021 Edition. Last date of manuscript submission is September 30, 2021.

Read More

Analysis of Different Shapes of Radiating Patch and Ground Plane Wideband CPW - Fed MSA

Amit A. Deshmukh, Sudesh Agrawal, Ami A. Desai, Saleha A. Shaikh Published in Communications

CAE Proceedings on International Conference on Communication Technology
Year of Publication: 2016
© 2015 by CAE Journal

Amit A Deshmukh, Sudesh Agrawal, Ami A Desai and Saleha A.shaikh. Article: Analysis of Different Shapes of Radiating Patch and Ground Plane Wideband CPW - Fed MSA. CAE Proceedings on International Conference on Communication Technology ICCT 2015(1):13-16, February 2016. Published by Foundation of Computer Science, New York, USA. BibTeX

@article{key:article,
	author = {Amit A. Deshmukh and Sudesh Agrawal and Ami A. Desai and Saleha A.shaikh},
	title = {Article: Analysis of Different Shapes of Radiating Patch and Ground Plane Wideband CPW - Fed MSA},
	journal = {CAE Proceedings on International Conference on Communication Technology},
	year = {2016},
	volume = {ICCT 2015},
	number = {1},
	pages = {13-16},
	month = {February},
	note = {Published by Foundation of Computer Science, New York, USA}
}

Abstract

Various Coplanar Waveguide fed microstrip antennas with different ground planes and different radiating patches for broader bandwidth are proposed. The effect of changing periphery of the radiating patch from square to pentagon, pentagon to hexagon, hexagon to octagon and octagon to circle on resonance curve is studied. Similar study has been done by changing the shape of ground plane.

References

  1. P. L. Chin, A. Z. Elsherbeni, and C. E. Smith, "Characteristics of Coplanar Bow-Tie Patch Antennas," Antennas and Propagation Society International Symposium, vol. 1, pp. 398-401, 2002.
  2. P. L. Chin, A. Z. Elsherbeni, and C. E. Smith, "A Coplanar Waveguide Bow-Tie Aperture Antennas," Antennas and Propagation Society International Symposium, vol. 1, pp. 564-567, 2002.
  3. E. A. Soliman, S. Brehels, P. Delmotte, G. A. E. Vondenbosch, and E. Begne, "Bow-tie Slot Antenna Fed by CPW," Electron. Len, vol. 35, pp. 514-515, 1999.
  4. M. Miao, B. L. Ooi, and P. S. Kooi, "Broadband CPW-fed Wide Slot Antenna," Microwave Opt. Technol. Lett. , vol. 25, pp. 206-211, 2000.
  5. E. A. Soliman, S. Brehels, P. Delmotte, G. A. E. Vondenbosch, and E. Begne, "CPW-fed Cusp Antenna," Microwave Opt. Technol. Lett. , vol. 22, pp. 288-290, 2000.
  6. S. -S. Garcia and J. -J. Laurin, "Study of a CPW Inductively Coupled Slot Antenna," IEE. Proc. Microw. Antennas Propagat, vol. 87, pp. 58-64, 1999.
  7. X. -C. Chang and L. -T. Wang, "A Broadband CPW-Fed Loop Slot Antenna with Harmonic Control," IEEE Antennas and Wireless Lett, vol. 2, pp. 323-325, 2003.
  8. M. S. Al Salameh, Y. M. M. Antar, and Guy Segulin, "Coplanar Waveguide-Fed Slot-Coupled Rectangular Di-electric Resonator Antenna," IEEE Trans. Antennas Propagat. , vol. 50, pp. 1415-1419, 2002.
  9. Amit A Deshmukh, S Agrawal, S B Nagarbowdi, N V Phatak, A. A Desai, S A. Shaikh, K A Lele and K P Ray. Article: Analysis of Different Shapes of Radiating Patch and Ground Plane in Wideband CPW - Fed MSA. IJCA Proceedings on International Conference on Computer Technology ICCT 2015(1):20-24, September 2015.
  10. IE3D 14, Zeland software Inc. , Fremont, CA.

Keywords

CPW – Fed antenna, pentagonal slot, hexagonal slot, octagonal slot, different shaped radiating patches, broadband MSA.