Patch Antenna with Multiple Slits and Circular Shaped

Authors

  • Furkan Atalah Department of Electrical & Electronics Engineering Istanbul Commerce University, Istanbul, Turkey
  • Mustafa Imeci Department of Electrical & Electronics Engineering Yildirim Beyazit University, Ankara, Turkey
  • Oguzhan Gungor Department of Electrical & Electronics Engineering Selcuk University, Konya, Turkey
  • S. Taha Imeci Department of Electrical & Electronics Engineering Int. University of Sarajevo, Bosnia and Herzegovina
  • Tahsin Durak Department of Technology, NSU, Norfolk, VA

Keywords:

Circular shaped antenna, microstrip patch antenna, single resonance

Abstract

In this paper, a circular shaped ground-fed patch antenna is designed, simulated, built and tested. The operating antenna frequency is 14.6 GHz with -15.68 dB input and 8.14 dB gain. Furthermore, the antenna have multiple slits in a circular main body, and also supported with triangle and rectangle shapes. The measurements of the fabricated patch antenna matches the simulation results.

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References

A. Dalli, L. Zenkouar, and S. Bri, “Comparison of circular sector and rectangular patch antenna arrays in C-Band,” Journal of Electromagnetic Analysis and Applications, vol. 4, no. 11 pp. 457-467, 2012.

S. Malisuwan, J. Sivaraks, N. Madan, and N. Suriyakrai, “Design of microstrip patch antenna for Ku-band satellite communication applications,” International Journal of Computer and Communication Engineering, vol. 3, no. 6, Nov. 2014.

A. Thakur, M. Chauhan, and M. Kumar, “Effect of substrate relative dielectric constant on bandwidth characteristics of line feed rectangular patch antenna,” International Journal of Engineering Science Invention Research & Development, vol. 1, iss. 10, e-ISSSN: 2349-6185, Apr. 2015.

R. K. Sharan, S. K. Sharma, A. Gupta, and R. K. Chaoudhary, “An edge tapered rectangular patch antenna with parasitic stubs and slot for wideband applications,” Wirel. Pers. Commun., 86, pp. 1213-1220, 2016.

O. Mahmoodian, “Enhancing microstrip patch antenna performance by using high impedance surfaces (HIS),” Bull. Env. Pharmacol. Life Sci., 5(6), pp. 11-14, 2016.

A. Bendaoudi and Z. Mahdjoub, “Comparative study of patch antenna loaded with slot split-ring resonators on different substrate materials,” Photon Network Communication, vol. 35, pp. 195-203, 2018.

R. E. Munson, “Conformal microstrip antennas and microstrip phased arrays,” IEEE Trans. Antennas Propagation, vol. AP-22, pp. 74-78, Jan. 1974.

M. A. Layegh, C. Ghobadi, and J. Nouriia, “The optimization design of a noval slotted microstrip patch antenna with multi-bands using adaptive network-based fuzzy interference system,” MDPI Technologies, vol. 5, pp. 174-185, Apr. 2017.

A. Deshmukh, V. Pandit, R. Colaco, and R. Doshi “Dual band dual polarized modified circular microstrip antenna,” International Conference on Circuits, Systems, Communication and Information Technology Applications (CSCITA), 2014.

R. Garg, P. Bhatia, I. Bhal, and A. Ittipibon, Microstrip Antenna Design Handbook. Artech House, 2001.

Sonnet Suites, ver. 17.52, www.sonnetsoftware.com

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Published

2019-02-01

How to Cite

[1]
Furkan Atalah, Mustafa Imeci, Oguzhan Gungor, S. Taha Imeci, and Tahsin Durak, “Patch Antenna with Multiple Slits and Circular Shaped”, ACES Journal, vol. 34, no. 02, pp. 297–300, Feb. 2019.

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General Submission