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Review of Feeding Techniques for Microstrip Patch Antenna

by Abdullahi SB Mohammed, Aliyu Rufai Yauri, A. M. Kabir
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International Journal of Computer Applications
Foundation of Computer Science (FCS), NY, USA
Volume 178 - Number 27
Year of Publication: 2019
Authors: Abdullahi SB Mohammed, Aliyu Rufai Yauri, A. M. Kabir
10.5120/ijca2019919010

Abdullahi SB Mohammed, Aliyu Rufai Yauri, A. M. Kabir . Review of Feeding Techniques for Microstrip Patch Antenna. International Journal of Computer Applications. 178, 27 ( Jun 2019), 39-43. DOI=10.5120/ijca2019919010

@article{ 10.5120/ijca2019919010,
author = { Abdullahi SB Mohammed, Aliyu Rufai Yauri, A. M. Kabir },
title = { Review of Feeding Techniques for Microstrip Patch Antenna },
journal = { International Journal of Computer Applications },
issue_date = { Jun 2019 },
volume = { 178 },
number = { 27 },
month = { Jun },
year = { 2019 },
issn = { 0975-8887 },
pages = { 39-43 },
numpages = {9},
url = { https://ijcaonline.org/archives/volume178/number27/30709-2019919010/ },
doi = { 10.5120/ijca2019919010 },
publisher = {Foundation of Computer Science (FCS), NY, USA},
address = {New York, USA}
}
%0 Journal Article
%1 2024-02-07T00:51:38.412582+05:30
%A Abdullahi SB Mohammed
%A Aliyu Rufai Yauri
%A A. M. Kabir
%T Review of Feeding Techniques for Microstrip Patch Antenna
%J International Journal of Computer Applications
%@ 0975-8887
%V 178
%N 27
%P 39-43
%D 2019
%I Foundation of Computer Science (FCS), NY, USA
Abstract

This work analyzes the performance of different feeding techniques used in wireless communications applications for rectangular microstrip patch antennas, as in technologies such as Wimax, LTE and 5G application. Here are discussed various types of feeding arrangements. The performance of the microstrip patch antenna system depends on the antenna element and substrate characteristics as well as the feed configuration used.

References
  1. Suhana Rashid, Chandan Kumar Chakrabarty, Bandwidth Enhanced Rectangular Patch Antenna Using Partial Ground Plane Method for WLAN Applications.: Universiti Tenaga Nasional, Putrajaya Campus. 2015. The 3rd National Graduate Conference.
  2. Garg, R., Bhartia, P., Bahl, I., Ittipiboon, “A., Microstrip Antenna Design Handbook”, Artech House, Inc, 2001.
  3. Yang F., X. Zhang, X. Ye, and Y. Rahmat-Samii, Wide-band E-shaped patch antennas for wireless communications”, IEEE Transactions on Antennas and Propagation, Vol. 49, No. 7, pp. 1094-1100, Jul. 2001.
  4. Ge, Y., K. Esselle, and T. Bird, “E-shaped patch antennas for high speed wireless networks”, IEEE Transactions on Antennas and Propagation, Vol. 52, No. 12, pp. 3213-3219, Dec. 2004.
  5. S K Behera, “Novel Tuned Rectangular Patch Antenna as a Load for Phase Power Combining” PhD Thesis, Jadavpur University, Kolkata, 2012.
  6. Gurdeep Singh, Jaget Singh, “Comparative Analysis of Microstrip Patch Antenna with Different Feeding Techniques”, International Conference on Recent Advances and Future Trends in Information Technology, Proceedings published in International Journal of Computer Applications® (IJCA), 2012.
  7. Dipak K. Neog, Shyam S. Pattnaik, Dhruba. C. Panda, Swapna Devi, BonomaliKhuntia, and Malaya Dutta, Design of a Wideband Microstrip Antenna and the Use of Artificial Neural Networks in Parameter Calculation”, IEEE Antennas and Propagation Magazine, Vol. 47, No.3, June 2005.
  8. Gurdeep Singh, Jaget Singh, “Comparative Analysis of Microstrip Patch Antenna with Different Feeding Techniques”, International Conference on Recent Advances and Future Trends in Information Technology, pp. 18-22, 2012.
  9. Fong, F.S., H.F. Pues and M.J. wither, “wideband multilayer coaxial-feed Microstrip antenna element”. Electronics letters, vol 21, pp. 497-498, 1985.
  10. Yoshita Gupta, “Stacked Microstrip Patch Antenna with Defected Ground Structures for W-lan and Wimax Applications” Thesis work in Department of Electronics and Communication Engineering, THAPAR UNIVERSITY, PATIALA, June, 2014
  11. J. Anguera, G. Font, C. Puente, C. Borja, and J. Soler, “Multifrequency microstrip patch antenna using multiple stacked elements,” IEEE Microwave and Wireless Components Lett., vol. 13, no. 3, 13(3), pp. 123-124, March 2003
  12. Pozar, D.M. and B. Kaufman, “Increasing the bandwidth of a Microstrip antenna by proximity coupling”, Electronics letters, vol 23, no. 8, pp. 368-369, April 1987
  13. Gurdeep Singh, Jaget Singh, “Comparative Analysis of Microstrip Patch Antenna with Different Feeding Techniques”, International Conference on Recent Advances and Future Trends in Information Technology, pp. 18-22, 2012.
  14. Hao Jiang, Zhenghui Xue, Weiming Li and Wu Ren, “Broad beamwidth stacked patch antenna with wide circularly polarized bandwidth”, Electronics Letters, Vol. 51, No. 1, pp. 10–12, 8th January 2015.
  15. Dong, J., Wang, A., Wang, P., & Hou, Y. (2008, November). A novel stacked wideband microstrip patch antenna with U-shaped parasitic elements. In Antennas, Propagation and EM Theory, 2008. ISAPE 2008. 8th International Symposium on (pp. 185-188). IEEE.
  16. Dahele, J. S., and Kai F. Lee. "Theory and Experiment on Microstrip Antennas with Airgaps." IEEE Proceedings on Microwaves, Antennas and Propagation, Vol. 132, No. 7, 1985.
  17. Chakraborty, Shatabdi, and Shweta Srivastava, "High Gain Annular Ring Antenna", International Conference on Devices and communications (ICDeCom), 2011.
  18. Chen, D. and C. H. Cheng, “A novel compact ultra-wideband (UWB) wide slot antenna with via holes” Progress in Electromagnetics Research, Vol. 94, pp. 343- 349, 2009
  19. Hatem H. Abbas, Jabir S. Aziz, “Bandwidth enhancement of Microstrip patch antenna”, Journal of mobile communication, vol. 4, pp. 54-59, 2010.
  20. Yoon, N., & Seo, C. (2017). A 28-GHz wideband 2× 2 U-slot patch array antenna. Journal of Electromagnetic Engineering and Science, 17(3), 133-137.
  21. Neha Kothari & Sunil Sharma; A 28-GHz U-slot Microstrip Patch Antenna for 5G Applications, International Journal of Engineering Development and Research (www.ijedr.org) 2018 IJEDR | Volume 6, Issue 1 | ISSN: 2321-9939.
  22. Waterhouse, R. B., & Shuley, N. V. (1992). Dual frequency microstrip rectangular patches. Electronics Letters, 28(7), 606-607.
  23. Deng, S. M. (2001). U.S. Patent No. 6,211,825. Washington, DC: U.S. Patent and Trademark Office. White, C. R., & Rebeiz, G. M. (2010).
  24. A differential dual-polarized cavity-backed microstrip patch antenna with independent frequency tuning. IEEE Transactions on Antennas and Propagation, 58(11), 3490-3498.
  25. Antonino-Daviu, M. Cabedo-Fabres, M. Ferrando Bataller, A Valero-Nogueira, “Wideband Doubke fed Planar monopole antenna”, Institution of engineering and Technology, vol. 39,200.
  26. H. Grannum, R. D. Errico, C. Roblin, A. Sibille, “Small semi directional antenna for UWB terminal Application”, First European Conference on Antenna and Propagation, pp.1-6, 2006.
  27. Ansari, J. A., Singh, P., Yadav, N. P., & Vishvakarma, B. R. (2009). Analysis of shorting pin loaded half disk patch antenna for wideband operation. Progress in Electromagnetics Research, 6, 179-192.
  28. Malekpoor, H.; Jam, S., "Enhanced Bandwidth of Shorted Patch Antennas Using Folded-Patch Techniques," Antennas and Wireless Propagation Letters, IEEE, vol.12, pp.198-201, 2013.
  29. Mustapha, L., & Jecko, B. (2008). EBG structure with wide defect band for broadband cavity antenna applications. IEEE Antennas and Wireless Propagation Letters, 7, 693-696.
  30. Geng, J. P., Li, J., Jin, R. H., Ye, S., Liang, X., & Li, M. (2009). The development of curved microstrip antenna with defected ground structure. Progress In Electromagnetics Research, 98, 53-73.
  31. Khan, M. T., Zakariya, M. A., Saad, M. N. M., Baharudin, Z., & Rehman, M. U. (2013, December). Parametric effect of defected ground structure (DGS) on frequency of a bandpass filter. In RF and Microwave Conference (RFM), 2013 IEEE International (pp. 184-188). IEEE.
  32. Sung, Y. J., Kim, M., & Kim, Y. S. (2003). Harmonics reduction with defected ground structure for a microstrip patch antenna. IEEE antennas and wireless propagation Letters, 2, 111-113.
Index Terms

Computer Science
Information Sciences

Keywords

Fractal Slot Dielectric DGS Microstrip Air-gap Shorting pin

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