Maple leaf shaped array antenna for multiband applications

  • Authors

    • M Vasujadevi
    • B T P Madhav
    • A Shiva Skandan
    • P Rajeswari
    • K Arjun Rao
    • K Khyathi Reddy
    • M Vekateswara Rao
    2017-12-21
    https://doi.org/10.14419/ijet.v7i1.1.10153
  • Maple leaf, ANSYS EM desktop 17, return loss, gain, E field, current distribution, far field radiation patterns

  • This article presents design and analysis of maple leaf shaped array antenna for high gain applications. The proposed antenna is characterized and analyzed using ANSYS EM desktop 17. This antenna works at 2.17-2.54(S band),5.3-5.64, 6.91-7.80(C Band), 8.76-9.15(X band), 12.49-12.75, 14.78-16.65(Ku band). The bands of the proposed antenna has its applications at LTE 2.3 GHz, ISM 2.4 GHz, WLAN, ISM, Bluetooth at S-band and upper WLAN at C-band, Military applications and air traffic control at X-band. This single antenna dimensioned 21x18x1.6 mm³ is later arrayed in 1x4. This antenna has peak gain at 7.8dB and the average gain of 4.2dB. The proposed 1x4 array antenna is characterized and obtained return loss, gain, E field, current distribution and far field radiation patterns.

  • References

    1. [1] Cai, Yang, et al. "Electrically Large Resonant Cavity Loaded with Negative Metamaterials." IEEE Antennas and Wireless Propagation Letters, Vol 15, 2016, pp 294-297.

      [2] B. T. P. Madhav, T. Venkateswara Rao and T. Anilkumar, "Design of 4-element printed array antenna for ultra-wideband applications," International Journal of Microwave and Optical Technology, vol. 13, no. 1, pp. 8-17, Jan. 2018.

      [3] B.T.P. Madhav, V.G.K.M. Pisipati, Habibulla Khan, V.G.N.S. Prasad, K. Praveen Kumar, K.V.L. Bhavani and P.V. Datta Prasad, “Microstrip 2x2 Square Patch Array Antenna on K15 Liquid Crystal Substrateâ€, International Journal of Applied Engineering Research, ISSN 0973-4562 Volume 6, Number 9 (2011) pp. 1099-1104.

      [4] B T P Madhav, J Sowjanya, V Swathi, P Tanmayee, Circular Array Antenna Synthesis based on Element Spacing, International Journal of Applied Engineering Research, ISSN 0973-4562, Volume 9, Number 20, Sep-2014, pp. 6959-6965.

      [5] D S Ramkiran, Nimmagadda Haritha, R Sree Ramya, Kalyani M. Vindhya, Sai P Abhishek, Design and analysis of microstrip slot array antenna configuration for bandwidth enhancement, Leonardo Electronic Journal of Practices and Technologies, ISSN 1583-1078, Issue 25, July-December 2014, pp 72-83.

      [6] Sri Jaya Lakshmi, Habibulla Khan, Design and analysis of high gain array antenna for wireless communication applications, Leonardo Electronic Journal of Practices and Technologies, ISSN 1583-1078, Issue 26, January-June 2015, pp 89-102.

      [7] M L S N S Lakshmi, Habibulla Khan, Novel Sequential Rotated 2x2 Array Notched Circular Patch Antenna, Journal of Engineering Science and Technology Review, ISSN: 1791-2377, Vol 8, issue 4, Dec-2015, pp 73-77.

      [8] Midasala, V. and Siddaiah, P., 2016. Microstrip Patch Antenna Array Design To Improve Better Gains. Procedia Computer Science, 85, pp.401-409.

      [9] Bhavanam, S.N. and Kalyan, R.S., 2016. Design of a novel coaxial feed triple frequency patch antenna with slots and shorting pin. Procedia Computer Science, 85, pp.345-351.

      [10] Bhavanam, S.N. and Narayana, B.L., 2015. Design & Simulation of Tripple Frequency Triangular Patch Antenna by Using HFSS 14.0. International Journal of Applied Engineering Research, 10(20), pp.1087-1090.

      [11] Sekhar, M., Bhavanam, S.N. and Siddaiah, P., 2014, December. Triple frequency circular patch antenna. In Computational Intelligence and Computing Research (ICCIC), 2014 IEEE International Conference on (pp. 1-3). IEEE.

      [12] Ali, M., Jalil, Q. and Bhavanam, S.N., 2015. Verification of GPS Data Using REB-4216 Card During Satellite Communication System. International Journal of Applied Engineering Research, 10(17), pp.1087-1090.

      [13] S.S. Mohan Reddy, P Mallikarjuna Rao, Enhancement of CPW-Fed Inverted L-Shaped UWB Antenna Performance Characteristics using Partial Substrate Removal Technique, 3rd International Conference on Signal Processing and Integrated Networks (SPIN-2016), 978-1-4673-9197-9/16/$31.00 ©2016 IEEE, pp 454-459

      [14] B.T.P.Madhav, P. Syam Sundar, K. Sarat Kumar, A.N.V.Kishore, Ankit Kumar Jain, “Liquid Crystal Polymer Dual Band Pan Slot Antennaâ€, Wireless and Optical Communications Networks (WOCN), Aug-22-24. 978-1-4673-1989-8/12/$31.00 ©2012 IEEE. Pp 1-5.

      [15] B T P Madhav, Jayasree Gogineni, Harini Appana, Jyothi Prathusha Chennam, Durga Sai Sruthi Thota, Priyanka Kotte, “Analysis of Compact Coplanar Waveguide Fed Slot Antenna with EBG Structureâ€, Spaces-2015, IEEE, pp 219-225.

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  • How to Cite

    Vasujadevi, M., T P Madhav, B., Shiva Skandan, A., Rajeswari, P., Arjun Rao, K., Khyathi Reddy, K., & Vekateswara Rao, M. (2017). Maple leaf shaped array antenna for multiband applications. International Journal of Engineering & Technology, 7(1.1), 494-499. https://doi.org/10.14419/ijet.v7i1.1.10153