EXPERIMENTAL STUDY ON MULTIBAND ARROW SHAPE PATCH ANTENNAWITH INVERTED V-SLOT

Authors

  • Ambresh P. A Department of Electronics, Mangalore University, Mangalore-574199, Karnataka, India
  • Sujata A.A Godutai Engineering College for Women, Gulbarga, Karnataka, India
  • P M Hadalgi Department of Applied Electronics, Gulbarga University, Gulbarga-585106, Karnataka, India
  • P.V. Hunagund Department of Applied Electronics, Gulbarga University, Gulbarga-585106, Karnataka, India

DOI:

https://doi.org/10.20319/mijst.2016.s11.0107

Keywords:

Wireless, Satellite, Frequency, Bandwidth, Military

Abstract

A multiband arrow shape patch antenna with inverted V slot (MASPAIVS) is designed and proposed for 3.5 GHz frequency. The antenna is designed with novel inverted wide V-slot and arrow shape patch is fed with a microstripline feed method. The wide inverted V-slot make the antenna to have multiple resonances to operate in the frequency bands of 1 GHz to 13 GHz achieving a maximum impedance bandwidth of 37.38 % in the satellite applications operating band. The antenna shows good return loss characteristics and operates in the L, S, C-Band and military X-band making it suitable for Wi-Max, WLAN and Satellite applications.

References

Garima, D. Bhatnagar, V. K. Saxena, and J. S. Saini (2009), Broadband circular patch microstrip antenna with diamond shape slot for space communication, in International Conference on Emerging Trends in Electronicand Photonic Devices & Systems, ELECTRO '09.332-335.

T. Jing-Yao, O. Ban Leong, and L. Mook Seng (2005), Diamond-shaped broadband slot antenna, IWAT 2005. IEEE International Workshop on Antenna Technology: Small Antennas and Novel Metamaterials, 431-434.

S. Satthamsakul, N. Anantrasirichai, C. Benjangkaprasert, and T. Wakabayashi (2008),Rectangular patch antenna with inset feed and modified ground-plane for wideband antenna, in SICE Annual Conference, 3400-3403.

M. T. Islam, N. Misran, M. N. Shakib, and B. Yatim (2008), Wideband Stacked Microstrip Patch Antenna for Wireless Communication, International Symposium on Parallel and Distributed Processing with Applications, 547-550.

A. S. Elkorany, A. A. Sharshar, and S. M. Elhalafawy (2009), Ultra wideband stacked microstrip patch antenna, EuCAP 2009. 3rd European Conference on Antennas and Propagation, 1464-1466.

M. Rahman and M. A. Stuchly (2001), Wideband microstrip patch antenna with planar PBG structure, International Symposiumin Antennas and Propagation Society, 2, 486-489.

Y. K. Cho, J. H. Yoo, E. J. Kim, Y. Kim, and Y. S. Lee (2010),Wideband microstrip-fed slot loop antenna with the conducting via," in Electromagnetic Compatibility (APEMC), pp. 834- 838.

H. S. Shin and N. Kim (2010), Wideband annular ring slot microstrip antenna with low impedance feed line,2010 Asia- Pacific Symposium onin Antennas and Propagation Society International Symposium, 2, 288-291.

V. Natarajan, E. Chettiar, and D. Chatterjee (2004), An ultra-wideband dual, stacked, Uslot microstrip antenna, IEEEAntennas and Propagation Society International Symposium, 3, 2939-2942.

P. Jearapraditkul, W. Kueathaweekun, N. Anantrasirichai, O. Sangaroon, and T. Wakabayashi (2008), Bandwidth Enhancement of CPW-Fed Slot Antenna with Inset Tuning Stub, International Symposium onin Communications and Information Technologies, 14-17.

C. A. Balanis (1997), Antenna Theory: Analysis and Design, John Wiley& Sons.

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Published

2015-11-14

How to Cite

Ambresh, P. A., Sujata, A. A., Hadalgi, P. M., & Hunagund, P. V. (2015). EXPERIMENTAL STUDY ON MULTIBAND ARROW SHAPE PATCH ANTENNAWITH INVERTED V-SLOT. MATTER: International Journal of Science and Technology, 1(1), 01–07. https://doi.org/10.20319/mijst.2016.s11.0107