Design of rectangular patched microstrip antenna at 2300 MHz

  • Authors

    • B Siva Reddy ASSISTANT PROFESSORECE DEPTGPULLAREDDY ENGG COLLEGE , KURNOOL
    • M V.R.Vittal
    • Salai ThillaiThilagam.J
    https://doi.org/10.14419/ijet.v7i3.12646

    Received date: May 10, 2018

    Accepted date: June 1, 2018

    Published date: June 14, 2018

  • Antenna Design, GSM, LTE Band, Microstrip Antenna, Rectangular Patch.

  • Abstract

    This research paper explains the design of rectangular shaped patch microstrip antenna power fed with coaxial probe feed, which is working around 2300 MHz 4G LTE band of frequency. It is designed by using the FR4 substrate. It applies to the devices which work around this frequency. Theoretical calculations are made and simulation results are performed using Zeland IE3D Software. Their simulation of antenna results exhibits the gain of 1.5 dB, return loss of -14 dB, VSWR of 1.5 and bandwidth of 80 MHz.

  • References

    1. Constantine. A. Balanis, (1997), “Antenna Theory: Analysis and Design”,USA: John Willey and Sons.
    2. SalaiThillaiThilagam J, Ganeshbabu T.R, Subbiah, (2017), “Analysis of substrates in microstrip antenna design”, Journal of Industrial Pollution Control, Vol. 33, No. 2,pp. 1759-1760.
    3. Yuwono R. Syakura, (2015), “Optimized Performance Result for 2.4 GHz and 2.45 GHz Circularly Polarized Microstrip Antenna”, USA: American Scientific Publishers.
    4. Kumar Gupta, Yogesh, (2013), “Circularly Polarized Truncated Pentagonal Shaped Microstrip Patch Antenna”, International Jour-nalof Microwaves Applications. Vol. 2, No.6, pp.149-152.
    5. Kaur Gagandeep, (2013), “Design of Wideband Microstrip Patch antenna Using Defected Ground Structure for Wireless Applica-tions”,International Journal of Advanced Research in Computer Sci-ence and Software Engineering, Vol. 3, No. 10, pp-762-765.
    6. SalaiThillaiThilagam J, Ganesh BabuT.R, (2018), “Rectangular Mi-crostrip patch Antenna at ISM band”, Proceedings of International conference on Computing Methodologies and communications, Vol. 2, No.1, pp.149-153.
    7. Sang Heun Lee and Young Joong Yoon, (2010), “Fat Arm Spiral Antenna for Wideband Capsule Endoscope Systems”, Proceedings of Conference on Bio informatic and Biomedical Engineering (iC-BBE) 4th International Publication, pp.1 – 4.
    8. Rasouli, M.Kencana, A.P. Van An Huynh Kiat, E. Lai, J.C.Y. Phee, L.S.J., (2010), “Wireless Capsule Endoscopes for Enhanced Diag-nostic Inspection of Gastrointestinal Tract” Proceedings of Confer-ence on Robotics Automation and Mechatronics (RAM), IEEE Pub-lication, pp. 68 – 71.
    9. V.R. Gupta and N. Gupta, (2006), “Two compact microstrip patch antennas for 2.4 GHz band – a comparison,” Microwave Review, pp.29-31.
    10. Noro T, Kazama Y, (2005), “A novel wideband circular polarization microstrip antenna - combination of different shaped antenna ele-ment”, Antennas and Propagation Society International Symposium, IEEE Publication Vol. 3A No.1, pp. 467 – 470.
    11. Natarajan and D. Chatterjee, (2003), “Effects of Ground Plane Shape on Performance of Probe-Fed, Circularly Polarized, Pentago-nal Patch Antenna” Antennas and propagation Society International Symposium, IEEE, pp. 720 - 723. https://doi.org/10.1109/APS.2003.1219337.
    12. G. Kumar, K. P. Ray, "Broadband Microstrip Antennas", (2003) Artech House, Boston, Mass, USA.

  • Downloads

  • How to Cite

    Siva Reddy, B., V.R.Vittal, M., & ThillaiThilagam.J, S. (2018). Design of rectangular patched microstrip antenna at 2300 MHz. International Journal of Engineering and Technology, 7(3), 1005-1007. https://doi.org/10.14419/ijet.v7i3.12646