Stub Loaded Rectangular Ring Shaped Tri-Band Monopole Antenna for Wireless Applications

Authors

  • Mandar P. Joshi Dept. of E & TC, GES’s R. H. Sapat College of Engineering, Management Studies and Research, Nashik-422005, Maharashtra, India
  • Jayant G. Josh Dept. of E & TC, Government Polytechnic, Nashik- 422101, Maharashtra, India
  • Shyam S. Pattnaik National Institute of Technical Teachers’ Training and Research, Sector-26, Chandigarh-160019, India

DOI:

https://doi.org/10.32452/IJAMT.2020.227233

Keywords:

Equivalent circuit, Rectangular Ring, Tri-band, WLAN/Wi-MAX

Abstract

This paper presents, design and equivalent circuit analysis of tri-band parasitically stub loaded rectangular ring printed monopole antenna for wireless communication applications. The printed monopole antenna is designed, fabricated and tested. The measured impedance bandwidth (S11< -10 dB) is 750 MHz (2.22 – 2.97 GHz), 220 MHz (3.65 – 3.87 GHz) and 1.28 GHz (5.23 – 6.51 GHz) covering Wi-Fi, WiMAX and WLAN/Wi-MAX applications respectively. The electrical dimension of monopole is 0.245λ0 × 0.212λ0. The proposed antenna is simple and a low profile structure fabricated using low cost glass epoxy substrate (FR4). The overall size of antenna is 60 × 40 mm2. Using slot cut and parasitically coupled stub loading methods, the tri-band monopole antenna has been realized and measured results are found to be in good agreement with simulated results. The equivalent circuit analysis and mutual coupling between the slots are calculated and presented.

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References

R. Garg, P. Bhartia, I. Bahl and A. Ittipiboon, Microstrip Antenna Design Handbook, Artech House, USA 2001.

Girish Kumar and K. P. Ray, Broadband Microstrip Antennas, Artech House, USA 2001.

L. Chouti, I. Messaoudene, T. A. Denidni, and A. Benghalia, Triple band CPW fed monopole antenna for WLAN/Wi-MAX applications, Progress in Electromagnetic Research Letters, vol. 69, pp. 1- 7, 2017.

L. Li, X. Zhang, X. Yin, and L. Zhou, A compact triple- band printed monopole antenna for WLAN/Wi-MAX applications, IEEE Antennas and Wireless Propagation Letters, vol. 15, pp. 1853-1855, 2016.

M-T. Tan, B- Z. Wang, and Z- M. Zhang, Compact tri-band dual polarized planar monopole antenna with asymmetrical ground plane and loaded stub, Progress in Electromagnetic Research Letters, vol. 58, pp. 89 – 95, 2016.

H. Li, L. Kang, X- H. Wang, and Y- Z. Ying, Design of tri-band quasi-self-complementry antenna for WLAN and WiMAX applications, Progress in Electromagnetic Research Letters, vol. 56, pp. 89- 94, 2015.

H. F. Abutarboush and A. Shamim, Paper based inkjet-printed tri-band U-slot monopole antenna for wireless applications, IEEE Antennas and Wireless Propagation Letters, vol.11, No. 1234-1237, 2012.

M. S. Ellis, Z. Q. Zhao, J. N. Wu, Z. P. Nie, and Q. -H. Liu, A new compact microstrip- fed monopole antenna for triple band WLAN/WiMAX applications, Progress in Electromagnetic Research Letters, vol. 48, pp. 129 – 135, 2014.

B. Li, Z. Yan, and T. Zhang, Triple band slot antenna with Ushaped open stub fed by asymmetric coplanar strip for WLAN/WiMAX applications, Progress in Electromagnetic Research Letters, vol. 37, pp. 123 – 131, 2013.

X. -Q. Zhang, Y. -C. Jiao, and W. -H. Wang, Miniature tripleband CPW-fed monopole antenna for WLAN/Wi-MAX applications, Progress in Electromagnetic Research Letters, vol. 31, pp. 97 – 105, 2012.

J. Cao, X. Jhao, C. Liu, and L. Yan, A planar compact tripleband monopole antenna for WLAN/WiMAX applications, Progress in Electromagnetic Research Letters, vol. 29, pp. 15–23, 2012.

J. G. Joshi, S. S. Pattnaik, and S. Devi, Rectangular slotted microstrip patch antenna with partially loaded metamaterial ground plane, International Journal of Microwave and Optical Technology, vol. 7, No. 1, pp. 1-10, 2012.

Altair’s Hyperwork CAD FEKO, Altair Engineering Inc. USA.

J. A. Ansari, A. Mishra, N. P. Yadav, P. Singh, and B. R. Vishwakarma, “Analysis of W-slot loaded patch antenna for dualband operation, International Journal of Electronics and Communications, vol.66, pp. 32-38, 2012.

D. M. Pozar, Microwave Engineering, John Wiley & Sons, 2012.

X. -X. Zhang and F. Yang, Study of a slit cut on a microstrip antenna and its applications, Microwave and Optical Technology Letters, vol.18, No. 4, pp. 297-300, 1998.

A. Moradikordalivand, T. A. Rahman, S. Ebrahimi, S. Hakimi, An equivalent circuit model for broadband modified rectangular microstrip-fed monopole antenna, Wireless Personal Communication, vol. 77, pp. 1363-1375, 2014.

S. Risco, J. Anguera, A. Andujar, A. Perez, and C. Puente, Coupled monopole antenna design for multiband handset Devices, Microwave and Optical Technology Letters, vol.52, No.10, pp. 359-364, 2010.

J. Anguera, C. Puente, and C. Borja, Dual frequency broadband microstrip antenna with a reactive loading and stacked elements,

Progress in Electromagnetic Research Letters, vol.10, pp.1-10, 2009.

Anguera, C. Puente, and C. Borja, A procedure to design wideband electromagnetically-coupled stacked microstrip antenna based on simple network model, IEEE Antennas and Propagation Society International Symposium, vol.II, pp. 944-947, Orlando, USA July 1999.

Published

2020-10-22

How to Cite

Mandar P. Joshi, Jayant G. Josh, & Shyam S. Pattnaik. (2020). Stub Loaded Rectangular Ring Shaped Tri-Band Monopole Antenna for Wireless Applications. International Journal of Advances in Microwave Technology, 5(2), 227-233. https://doi.org/10.32452/IJAMT.2020.227233