Design of a Single Band Microstrip Patch Antenna for 5G Applications

 
 
 
  • Abstract
  • Keywords
  • References
  • PDF
  • Abstract


    This article is about a single band microstrip patch antenna used for the 5G applications. And this antenna is suitable for the millimeter wave frequency. The patch antenna design consists of 2 E shaped slots and 1 H shaped slot. These slots are loaded on the radiating patch with the 50 ohms microstrip feed line. For the simulation purpose, Rogers’s RT5880 dielectric substrate with relative permittivity of 2.2 and loss tangent of 0.0009 is used. The design and simulation of the antenna is done using HFSS (High Frequency Structure Simulator) software. The results are simulated for the parameters Return loss, VSWR, 3D Radiation pattern. The proposed antenna has a return loss of -42.4383 at 59 GHz millimeter wave frequency.

     



  • Keywords


    HFSS Software; Millimeter wave; Radiating patch; Return loss; Single band microstrip patch antenna.

  • References


      [1] Arunabha Debnath, Abhinandan, “Review On Next Generation Technologies Of Wireless Communication”, Issn 2321 – 8169, Volume: 1 Issue: 4, Ijritcc | Mar 2013.

      [2] Abdullah Al Mamun, Sultan Anwar, Hassan Ali, “4g And 5g Mobile Communication Networks: Features Analysis, Comparison And Proposed Architecture”, Ijcst Vo L. 7, Is S U E 2, Ap R I L - Ju N E 2016.

      [3] Ian F. Akyildiz, Shuai Nie, Shih-Chun Lin, Manoj Chandrasekaran, “5g Road Map: 10 Key Enabling Technologies”, 1389-1286/© 2016 Elsevier B.V. All Rights Reserved.

      [4] A.Gupta, R. K. Jha, “Survey Of 5g Network: Architecture And Emerging Technologies”, Volume 3, 1206-1233, Digital Object Identifier 10.1109/Access.2015.2461602 2015, Ieee.

      [5] K. K. Sharma And Ravi Kumar Goyal, “H-Slotted Microstrip Patch Antenna At 60 Ghz Millimeter Wave Frequency Band For 5g Communication”, Ieee Conference At Chitkara University, Punjab On Communication System And Network Technologies (Csnt-2016), 0507, March 2016.

      [6] Gouri Nayana N., Nishesh Tiwari & T. Rama Rao, “An Overview On Beamforming And Its Issues For 60 Ghz Wireless Communications”, Issn (Print): 2320 – 8945, Volume -1, Issue -4, 2013.

      [7] Pradeep Kumar, Neha Thakur, Aman Sanghi, “Microstrip Patch Antenna For 2.4 Ghz Wireless Applications”, International Journal Of Engineering Trends And Technology (Ijett) – Volume 4 Issue 8- August 2013.

      [8] Bist, Sourabh, Shweta Saini, Ved Prakash, And Bhaskar Nautiyal. "Study The Various Feeding Techniques Of Microstrip Antenna Using Design And Simulation Using Cst Microwave Studio." International Journal Of Emerging Technology And Advanced Engineering 4, No. 9 (2014).

      [9] Saini, Jyoti, And S. K. Agarwal. "Design A Single Band Microstrip Patch Antenna At 60 Ghz Millimeter Wave For 5g Application." In Computer, Communications And Electronics (Comptelix), 2017 International Conference On, Pp. 227-230. Ieee, 2017.

      [10] Korany R. Mahmoud, Ahmed M. Montaser, “Design Of Dual-Band Circularly Polarised Array Antenna Package For 5g Mobile Terminals With Beam-Steering Capabilities”, Iet Microw. Antennas Propag, 2018, Vol. 12 Iss. 1, Pp. 29-3.

      [11] Yuce, Mehmet R. Ultra-Wideband And 60 Ghz Communications For Biomedical Applications. Springer, 2016.

      [12] Madhav, B.T.P., Mohan Reddy, S.S., Sharma, N., Ravindranath Chowdary, J., Pavithra, B.R., Kishore, K.N.V.S., Sriram, G. And Sachin Kumar, B., 2013. Performance Characterization Of Radial Stub Microstrip Bow-Tie Antenna. International Journal Of Engineering And Technology, 5(2), Pp. 760-764.

      [13] Sunder, P.S., Kotamraju, S.K., Ramakrishna, T.V., Madhav, B.T.P., Sruthi, T.S., Vivek, P., Kumar, J.J. And Dileep, M., 2015. Novel Miniatured Wide Band Annular Slot Monopole Antenna. Far East Journal Of Electronics And Communications, 14(2), Pp. 149-159.

      [14] Madhav, B.T.P., Khan, H. And Kotamraju, S.K., 2016. Circularly Polarized Slotted Aperture Antenna With Coplanar Waveguide Fed For Broadband Applications. Journal Of Engineering Science And Technology, 11(2), Pp. 267-277.

      [15] Bhavani, K.V.L., Khan, H. And Madhav, B.T.P., 2015. Multiband Slotted Aperture Antenna With Defected Ground Structure For C And X-Band Communication Applications. Journal Of Theoretical And Applied Information Technology, 82(3), Pp. 454-461.

      [16] Madhav, B.T.P., Khan, H., Ujwala, D., Bhavani Sankar, Y., Kandepi, M., Nagendra Reddy, A.S. And Nagajyothi, D., 2013. Cpw Fed Serrated Antenna Performance Based On Substrate Permittivity. International Journal Of Applied Engineering Research, 8(12), Pp. 1349-1354.

      [17] Rakesh, D., Rakesh Kumar, P., Khan, H., Sri Kavya, K.C.H., Madhav, B.T.P., Prabhu Kumar, K. And Bala Durga Prasad, S., 2011. Performance Evaluation Of Microstrip Square Patch Antenna On Different Substrate Materials. Journal Of Theoretical And Applied Information Technology, 26(2), Pp. 97-106.

      [18] Madhav, B.T.P., Pisipati, V.G.K.M., Khan, H. And Ujwala, D., 2014. Fractal Shaped Sierpinski On Ebg Structured Ground Plane. Leonardo Electronic Journal Of Practices And Technologies, 13(25), Pp. 26-35.

      [19] Madhav, B.T.P., Krishnam Naidu Yedla, G.S., Kumar, K.V.V., Rahul, R. And Srikanth, V., 2014. Fractal Aperture Ebg Ground Structured Dual Band Planar Slot Antenna. International Journal Of Applied Engineering Research, 9(5), Pp. 515-524.

      [20] Madhav, B.T.P., Kotamraju, S.K., Manikanta, P., Narendra, K., Kishore, M.R. And Kiran, G., 2014. Tapered Step Cpw-Fed Antenna For Wideband Applications. Arpn Journal Of Engineering And Applied Sciences, 9(10), Pp. 1967-1973.

      [21] Madhav, B.T.P., Mohan Reddy, S.S., Sanjay, B. And Ujwala, D., 2013. Trident Shaped Ultra Wideband Antenna Analysis Based On Substrate Permittivity. International Journal Of Applied Engineering Research, 8(12), Pp. 1355-1361.


 

View

Download

Article ID: 10877
 
DOI: 10.14419/ijet.v7i2.7.10877




Copyright © 2012-2015 Science Publishing Corporation Inc. All rights reserved.