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Design and Simulation of 2× 2Micro Strip Circular Patch Antenna Array at 28 GHz for 5G Mobile Station Application

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Języki publikacji
EN
Abstrakty
EN
This paper proposes the design and simulation of 2×2 circular patch antenna array working at 28 GHz by using four inset feed micro strip circular patch antennas to achieve beam forming with directivity around 13dB which is required to overcome part of high path loss challenge for high data rate mm-5G mobile station application. Four element 2x2 array consists of two 1x2 circular patch antenna arrays based on power divider and quarter wavelength transition lines as a matching circuit. The designed antenna array is simulated on RT/duroid 5880 dielectric substrate with properties of 0.5mm thickness, dielectric constant ε r =2.2, and tangent loss of 0.0009 by using Computer System Technology (CST) software. The performances in terms of return loss, 3D–radiation pattern is evaluated at 28 GHz frequency band. The design also includes the possibility of inserting four identical 2x2 antenna arrays at four edges of mobile station substrate to achieve broad space coverage by steering the beams of the mobile station arrays.
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Twórcy
  • Computer Technical Engineering Department at Al-Hadbaa University College, Mosul, Iraq
  • Computer Technical Engineering Department at Al-Hadbaa University College, Mosul, Iraq
  • Computer Technical Engineering Department at Al-Hadbaa University College, Mosul, Iraq
  • Computer Technical Engineering Department at Al-Hadbaa University College, Mosul, Iraq
Bibliografia
  • [1] N. L. Vamsi Priya. K, G. Sai Sravanthi, K. Narmada, K. Naga Kavya, G. Yedukondalu Swamy, M. Durgarao “A Micro strip Patch Antenna Design at 28 GHz for 5G Mobile Phone Application,” International Journal of Electronics, Electrical and Computational System, Vol. 7, no. 3, pp. 204-208, March 2018.
  • [2] Z. hasan, A. Zaman, and A. Ahmed, “Design and Fabrication of a circular Micro strip Patch Antenna for GPS Application,” International Journal of Electronics & Communication Technology (IJECT), Vol. 8, no. 3, pp. 54-57, July - Sept 2017.
  • [3] Abdulsattar. M. Ahmed, Salim. Abdulla. Hasan, Sayf. A. Majeed, “5G Mobile Systems, Challenges and Technologies: A Survey,” Journal of Theoretical and Applied Information Technology, Vol. 97, no. 11, 15th June 2019. https://doi.org/10.5281/zenodo.3256485.
  • [4] Sridhar Rajagopal, Shadi Abu Surra, Zhouyue Pi and Farooq Khan. “Antenna Array Design for Multi Gbps mm Wave,” Mobile Broadband Communication. IEEE Globecom 2011 Proceeding https://doi.org/10.1109/GLOCOM.2011.6133699.
  • [5] I, J. Bahland P. Bhartia, “Microwave Antenna,” Artech Trans, Propagation. Vol. AP-30, No.4, PP. 645-650, July 1982.
  • [6] C.A., Balanis, “Advanced Engineering Electromagnetic,” John Wiley and son New York 1989.
  • [7] K.R. and J Mink, “Micro Strip Antenna Technology,” IEEE Trans Propagat, Vol. AP-29, No. 1, pp. 2-27, January 1981. https://doi.org/10.1109/TAP.1981.1142523.
  • [8] Z. Ying, “Antenna in Cellular Phones for Mobile,” In Proceeding of IEEE. Vol. No. 100. Pp. 2286-2296, July 2012. https://doi.org/10.1109/JPROC.2012.2186214.
  • [9] C. A. Balains, “Antenna Theory Analysis and Design,” 3rd Ed. John Wiley & Sons. New Jersey, 2005.
  • [10] Vamsi Priya.K, “A Micro Strip Patch Antenna Design at 28 GHz for 5G Mobile Phone Application,” International journal of Electronic and Computational System, Issn 2348-117X, Volume 7, Issue 3, March 2018.
  • [11] Kirankumar A. Solanki, Gautam. D. Mokwana, “Study and Analysis of Micro Strip Patch Array at 12 GHz for 5G Application,” Journal of Remote Sensing GIS and Technology, Volum 4 Page 1-8 Issue1, 2018.
  • [12] Sonali Jain, Rajesh Nema, “Review Paper for Circular Micro Strip Patch Antenna,” International Journal of Computer Technology and Electronic Engineering, Volume 1, Issue 3, issn 2249 6343.
  • [13] Hamid Mubarak Mustafa, “Performance Evaluation of 1 × 2 Patch Antenna Array Based on Power Divider Characteristics,” 2106 Conference of Basic Science and Engineering Studies (SGCAC). https://doi.org/10.1109/SGCAC.2016.7457998.
  • [14] Rahman, Qunsheng Cao, Ishfaq Hussain, Hisham Khalil, Muhammad Zeeshan, and Wassem Nazar, “Design of Rectangular Antenna Array for 5G Wireless Communication,” Progress In Electromagnetics Research Symposium Spring (PIERS), St Petersburg Russia, 22 - 25 May 2017. https://doi.org/10.1109/PIERS.2017.8261995.
  • [15] Qurratul Ayn, Nageswar Rao, Malikarjuna Rao, “Design and Analysis of High Gain 2 × 1 and 4 × 1 Circular Patch Antenna Arrays for 2.4 GHz Application,” International Journal of Innovative Research in Science Engineering and Tecnology. Vol 6, Issue 8, August 2017.
  • [16] Z.Ying, “Antenna in Cellular Phones for Mobile,” In Proceeding of IEEE. Vol. No. 100. PP 2286-2296, July 2012 https://doi.org/10.1109/JPROC.2012.2186214.
  • [17] Md Ziaur Rahman, Mohammed Mynuddin, Kartik Chandra Debnath,“The significance of Notch Width on the performance of Inset Feed Rectangular Microstrip Patch Antenna,” International Journal of Electromagnetics amd Application 2020, 10(1): 7-18 https://doi.org/10.5923/ijea 20201001.0.
  • [18] D. Prabhakar, Dr. P, Mallilarjuna Rao, DR. M. Satyanarayana, “Characteristic of Patch Antenna with Notch gap Variations for Wi-Fi Application,” International Journal of Applied Engineering Research ISSN 0973-4562 Volume 11, Number 8(2016) pp 5741-5746.
Uwagi
Opracowanie rekordu ze środków MEiN, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2022-2023).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-e9dfe949-0410-4e0f-b4e5-5bac1ebf30f2
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