Design and simulation of microstrip patch array antenna with HFSS for 2.45GHz applications
Corressponding author's email:
hatn@hcmute.edu.vnDOI:
https://doi.org/10.54644/jte.65.2021.144Keywords:
array antennas, patch antenna, radiation pattern, gain, HFSSAbstract
This paper studied the application of microstrip antenna array for operation at 2.45GHz frequency. In this paper, the theoretical bases as well as the formulas about microsequence antennas are applied by the author to calculate and design a microstrip antenna. Then, the author designed two element antennas and four element antenna arrays with parallel power method. The HFSS v13 software is used to evaluate the antenna parameters: resonant frequency, radiation pattern, efficiency, gain. As final, the study showed that with 1x4 microstrip antenna array, the results are as follows: gain=9.7(dB), radiation efficiency=95.7%, resonant frequency=2.45GHz with bandwidth(BW)=90MHz and the maximum radiation direction of the array antenna θ=00.
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References
Lưu Văn Hoan, Thiết kế chế tạo anten vi dải nhiều băng tần, Khoa thông tin vô tín, Hà Nội, 2008.
Ramesh Garg, Prakash Bhartia, Inder Bahl, Apisak Ittipiboon, Microstrip Antenna Design Hanbook, Artech House.
A John Wiley, Sons và cộng sự, Antenna Theory Analysis and Design, Hoboken, New Jersey, Canada,1976.
Vũ Thị Liên, Thiết kế mô phỏng anten vi dải, Khoa Điện tử, ĐH Hàng Hải.
G. Casu, C. Mararu, and A Kovacs, "Design and Implementation of Microstrip Patch Antenna Array," IEEE 10th International Conference on Communications, pp. 1-4, May 2014. DOI: https://doi.org/10.1109/ICComm.2014.6866738
B.S. Sandeep, and S.S. Kashyap, "Design and Simulation of Microstrip Patch Arrayantenna for Wireless Communications at 2.4 GHZ," International Journal of Scientific & Engineering Research,
P. Jeyakumar, P. Chitra, and M. G. Christina, "Design and Simulation of Directive High Gain Microstrip Array Antenna for 5 G Cellular Communication," 2018.
R. Najeeb, D. Hassan, D. Najeeb, and H. Ademgil, "Design and simulation of VoL 3, pp.1-4, November 2012.
C.A. Balanis, c.A., "Antenna Theory: Analysis Design," Third Edition, John Wiley&Sons, Inc., 2005.
Manickam Karthigai Pandian and Thangam Chinnadurai, “Design and Optimization of Rectangular Patch Antenna Based on FR4, Teflon and Ceramic Substrates”, Recent Advances in Electrical & Electronic Engineering 2019; 12(4) DOI: https://doi.org/10.2174/2352096511666180705121554
Singh, Ashish, Aneesh, Mohammad, Kamakshi, and Ansari, J. A.. "Analysis of Microstrip Line Fed Patch Antenna for Wireless Communications" Open Engineering, vol. 7, no. 1, 2017, pp. 279-286. DOI: https://doi.org/10.1515/eng-2017-0034
A Majumder, "Rectangular Microstrip Patch Antenna Using CoaxialProbe Feeding Technique to Operate in S-Band," International Journal of Engineering Trends and Technology (UETT) - VoL 4, pp.1206-1210, April 2013.
A Kumar, .I. Kaur, and R. Singh, "Performance Analysis of Different Feeding Techniques," International Journal of Emerging Technology and Advanced EngineeringCertified Journal, Vol. 3, pp. 884-890, March 2013.
RJ. Jothi Chitra, M. Rajasekaran, and V. Nagarajan, "Design of double L-slot Microstrip Patch Antenna Array far WiMAXlWLAN Application using step width junction feed," IEEE, International conference on Communication and Signal Processing, pp. 298-304, April 2013. DOI: https://doi.org/10.1109/iccsp.2013.6577063
Abdelhakim Elouadih, Ahmed Oulad-Said, Moha Mrabet Hassani,"Design and Simulation by HFSS of a Slim UWB PIFA Antenna", World Journal of Engineering and Technology, Vol.1 No.2, 2013. DOI: https://doi.org/10.4236/wjet.2013.12003
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