Design of Rectangular Microstrip Patch Antenna at 3.3 GHz Frequency for S-band Applications

Автор: Md. Imran Hossain, Md. Tofail Ahmed, Md. Humaun Kabir

Журнал: International Journal of Engineering and Manufacturing @ijem

Статья в выпуске: 4 vol.12, 2022 года.

Бесплатный доступ

Low-profile antennas are required for aircraft, satellites, radar, and a variety of other vehicles due to aerodynamic considerations. The "patch" or microstrip antenna is a narrow band antenna with a low profile and low gain. Patch antennas are becoming more popular as a result of their ability to be printed on a circuit board. Microstrip antennas can be rectangular, circular, elliptical, or any other regular form, but the most common configurations are rectangular and circular. This research constructed a rectangular patch antenna that operates in the 3.3 GHz (S-band) operating frequency based on a description of microstrip antenna working principles. Agilent ADS Momentum software is used to create and simulate the antenna model. Finally, by optimizing and matching to meets, the best performance parameters such as Gain, Directivity, Efficiency, Power Intensity, Radiated power, and Return loss are obtained.

Еще

Microstrip Patch Antenna, ADS (Advance Design System), Rectangular Shape, Gain of antenna, Directivity of antenna

Короткий адрес: https://sciup.org/15018492

IDR: 15018492   |   DOI: 10.5815/ijem.2022.04.05

Список литературы Design of Rectangular Microstrip Patch Antenna at 3.3 GHz Frequency for S-band Applications

  • Wu, J.-W., H.-M. Hsiao, J.-H. Lu, and S.-H. Chang, “Dual broadband design of rectangular slot antenna for 2.4 and 5 GHz wireless communication,” IEE Electron. Lett., Vol. 40, No. 23, November 11, 2004.
  • Raj, R. K., M. Joseph, C. K. Anandan, K. Vasudevan, and P. Mohanan, “A new compact microstrip-fed dual-band coplanar antenna for WLAN applications,” IEEE Trans. Antennas Propag., Vol. 54, No. 12, 3755-3762, December 2006.
  • Zhang, Z., M. F. Iskander, J.-C. Langer, and J. Mathews, “Dualband WLAN dipole antenna using an internal matching circuit,” IEEE Trans. Antennas and Propag., Vol. 53, No. 5, 1813-1818, May 2005.
  • Sarkar, I., P. P. Sarkar, and S. K. Chowdhury, “A new compact printed antenna for mobile communication,” 2009 Loughborough Antennas & Propagation Conference, Loughborough, UK, November 16-17, 2009.
  • Jan, J.-Y. and L.-C. Tseng, “Small planar monopole antenna with a shorted parasitic inverted-L wire for wireless communications in the 2.4, 5.2 and 5.8 GHz bands,” IEEE Trans. Antennas and Propag., Vol. 52, No. 7, 1903-1905, July 2004.
  • Danideh, A., R. S. Fakhr, and H. R. Hassani, “Wideband coplanar microstrip patch antenna,” Progress In Electromagnetics Research Letters, Vol. 4, 81-89, 2008.
  • Ramesh Garg, Prakash Bhartia, Inder Bahl, Apisak Ittipiboon, “Microstrip Antenna Design Handbook”, Artech House, Boston, London, pp.759-768, 2001.
  • John D Kraus, Ronald J Marhefka, Ahmed S Khan, “Antennas and Wave Propagation”, Fourth edition, Tata Mcgraw Hill Education Private Limited, 7 West patel Nagar, New Delhi 110008, 2010, ISBN(13): 9870070671553, pp 1-17.
  • C. A. Balanis, “Antenna Theory-Analysis & Design”, Wiley Inter-science Publication, Third Edition, 2005.
  • Garg, R., Bhartia, P., Bahl, I., Ittipiboon, A., Microstrip Antenna Design Handbook, Artech House, inc, 2001, pp 7.
  • C. Viahnu Vardhana Reddy, Rahul Rana, “Design of Linearly Polarized Rectangular Microstrip Patch Antenna Using IE3D/PSO, Department of ECE, National Institute of Technology, Rourkela, 2009.
  • S. A. Schelkunoff, H.T.Friss, Antennas: Theory and Practice, New York: John Willy & Sons, 1952.
Еще
Статья научная