Fractal Antenna Design for Multiple Applications

  • Authors

    • Vasujadevi M
    • K Akhil Teja
    • G Divya
    • VV Sai Shanmukh
    • K R Dheeraj
    2018-03-18
    https://doi.org/10.14419/ijet.v7i2.7.10889
  • Multiband antenna, C band, X band, Ku band, Return loss, HFSS.

  • The sudden development in in wireless applications has leveled up the use of antennas. Multiband antennas are used to operate at different frequencies for the reliability in various applications. This paper presents design of a novel fractal antenna for multiband applications. Attributes of proposed antenna are simulated using Ansoft HFSS. Due to the homogeneous property in the design of proposed fractal receiving wire it has the various multiband applications. Proposed Antenna design consists of FR4_epoxy material with dielectric constant of 4.4, height 1.6 mm. The operating frequency is taken as 2.4GHz. The antenna is simulated. The proposed antenna resonates at different frequencies. The results are measured and return losses are compared. Here the geometry of fractal antenna is analyzed for the C band resonating at 6.2 GHz, X band resonating at 11.9 GHz and Ku band resonating at 13.8 GHz for S11<-10db.

     

     

  • References

    1. [1] Dual-band Pre-fractal Antenna Multi-objective Optimization Design by Imen Khadhraoui, Taha Ben Salah and IEEE explorer, 2017: pp 840-844

      [2] A Novel Design of Multiband Minkowski Fractal Patch Antenna with Square Patch Element for X and Ku Band Applications by Ankur Dalmiya, IEEE International Conference on Recent Advances and Innovations in Engineering (ICRAIE-2016), December 23-25, 2016, Jaipur, India

      [3] A Modified Sierpinski Carpet Fractal Antennafor Multiband Applications Contribution of the author to the Research: designed a fractal antenna for Wireless communication by Jagtar Singh Sivia, Gurpreet Kaur and Amandeep Kaur Sarao Vol. 4, Issue 2, February 2016.

      [4] The Koch Monopole: A Small Fractal Antenna by Carles Puente Baliarda, Jordi Romeu and Angel Cardama IEEE TRANSACTIONS ON ANTENNAS AND PROPAGATION, VOL. 48, NO. 11, NOV 2000.

      [5] Dr. V. Siva Naga Raju, S Nagakishore Bhavanam, Vasujadevi Midasala, P Ramesh "Multi Frequency Antenna Design By Using HFSS 15.0", Special Issue on Signal Processing and Communication Engineering Systems, International Journal of Pure and Applied Mathematics, ISSN: 1311-8080 (Printed Version), ISSN 1314-3395 (On-Line Version), Vol.117, No.18, 2017, Pages 215–219.

      [6] Multi-band Antenna Designs for Satellite Applications by Milind S. Shah, Prof. Sanjeev Gupta 9 May 2017

      [7] Dual-band Pre-fractal Antenna Multi-objective Optimization Design by Imen Khadhraoui, Taha Ben Salah and Taoufik Aguili 20 july 2017

      [8] A Novel Design of Multiband Minkowski Fractal Patch Antenna with Square Patch Element for X and Ku Band Applications by AnkurDalmiya, Om Prakash Sharma 08 June 2017

      [9] Vasujadevi Midasala, S Nagakishore Bhavanam, M Gopikrishna, " Design Of Coax-Fed Multi Frequency U-Slot Antenna", Special Issue on Signal Processing and Communication Engineering Systems, International Journal of Pure and Applied Mathematics, ISSN: 1311-8080 (Printed Version), ISSN 1314-3395 (On-Line Version), Vol.117, No.18, 2017, Pages 51-54.

      [10] S Nagakishore Bhavanam, K. V. Prashanth, Vasujadevi Midasala, "Design Of EBG Based Artificial Ground Plane Using HFSS 15.0", Special Issue on Signal Processing and Communication Engineering Systems, International Journal of Pure and Applied Mathematics, ISSN: 1311-8080 (Printed Version), ISSN 1314-3395 (On-Line Version), Vol.117, No.18, 2017, Pages 61-65.

      [11] Vasujadevi M, Dr. P. Siddaiah “Microstrip Patch Antenna Array Design to Improve Better Gainsâ€, Procedia Computer Science, Volume 85, 2016, Pages 401-409.

      [12] Muthanna Ali, QusayJalil and S Nagakishore Bhavanam, "Verification of GPS Data Using REB-4216 Card During Satellite Communication System", International Journal of Applied Engineering Research, vol. 10, No. 17, Oct. 2015, ISSN : 0973-4562(print), ISSN : 1087-1090 (Online), pp. 38397-38402.

      [13] S Nagakishore Bhavanam, Rokkam Satya Kalyan "Design of a Novel Coaxial Feed Triple Frequency Patch Antenna with Slots and Shorting Pin", ELSEVIER Journal-Procedia Computer Science, ISSN: 1877-0509, Volume 85, 2016, Pages 345–351.

      [14] S Nagakishore Bhavanam, and B. Lakshmi Narayana "Design & Simulation of Tripple Frequency Triangular Patch Antenna by Using HFSS 14.0", International Journal of Applied Engineering Research, vol. 10, No. 20 April 2015, ISSN : 0973-4562(print), ISSN : 1087-1090 (Online), pp. 18585-18588.

      [15] S Nagakishore Bhavanam et al, “Design & Simulation of single frequency Rectangular Patch Antenna by Using HFSSâ€. International Journal of Engineering Research and Applications (IJERA), Vol. 5, Issue 4, Part-V, April 2015, ISSN : 2248-9622, pp.06-09.

      [16] S Nagakishore Bhavanam, M. Sekhar and Dr. P. Siddaiah "Triple Frequency Circular Patch Antenna" IEEE International Conference on Computational Intelligence and Computing Research (IEEE ICCIC-2014) organized by IEEE Phodhigai & IEEE-SIPICOM Sections, Coimbatore, Tamilnadu, 18-20 December, 2014, pp.1231-1233.

      [17] Vasujadevi M, Dr. P. Siddaiah and S Nagakishore Bhavanam "Rectangular Patch Antena Aray Design at 13GHz frequency Using HFSS" IEEE International Conference on Computational Intelligence and Computing Research (IEEE ICCIC-2014) IEEE-SIPICOM Sections, Coimbatore, 18-20 December,2014, pp.43-46.

      [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., MOHAN REDDY, S., RAVINDRANATH CHOWDARY, J., VINOD BABU, V., SATYA PARTHIVA, S. and KALYANA SARAVANA, S., 2013. Analysis of dual feed asymmetric antenna. International Journal of Applied Engineering Research, 8(4), pp. 461-467.

      [20] MADHAV, B.T.P., UJWALA, D., KHAN, H., TEJASWANI, A.L., GUNTUPALLI, S. and BALA, A., 2013. Substrate permittivity effects on the performance of slotted aperture stacked patch antenna. International Journal of Applied Engineering Research, 8(8), pp. 909-916.

      [21] SADASIVARAO, B. and MADHAV, B.T.P., 2014. Analysis of hybrid slot antenna based on substrate permittivity. ARPN Journal of Engineering and Applied Sciences, 9(6), pp. 885-890.

      [22] LAKSHMIKANTH, P., TAKESHORE, K. and MADHAV, B.T.P., 2015. Printed log-periodic dipole antenna with notched filter at 2.45 GHz frequency for wireless communication applications. Journal of Engineering and Applied Sciences, 10(3), pp. 40-44.

      [23] 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.

      [24] 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.

      [25] 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.

      [26] MADHAV, B.T.P., SANIKOMMU, M., PRANOOP, M.S., BOSE, K.S.N.M.C. and KUMAR, B.S., 2015. Cpw fed antenna for wideband applications based on tapered step ground and ebg structure. Indian Journal of Science and Technology, 8, pp. 119-127.

      [27] MADHAV, B.T.P., KUMAR, K.V.V. and MANJUSHA, A.V., 2014. Analysis of CPW fed step serrated ultra wide band antenna on Rogers RT/duroid substrates. International Journal of Applied Engineering Research, 9(1), pp. 53-58.

      [28] MOHAN REDDY, S.S., MALLIKARJUNA RAO, P. and MADHAV, B.T.P., 2015. Asymmetric defected ground structured monopole antenna for wideband communication systems. International Journal on Communications Antenna and Propagation, 5(5), pp. 256-262.

      [29] MADHAV, B.T.P., MANIKANTA PRASANTH, A., PRASANTH, S., KRISHNA, B.M.S., MANIKANTHA, D. and NAGASAI, U.S., 2015. Analysis of defected ground structure notched monopole antenna. ARPN Journal of Engineering and Applied Sciences, 10(2), pp. 747-752.

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  • How to Cite

    M, V., Akhil Teja, K., Divya, G., Sai Shanmukh, V., & R Dheeraj, K. (2018). Fractal Antenna Design for Multiple Applications. International Journal of Engineering & Technology, 7(2.7), 602-605. https://doi.org/10.14419/ijet.v7i2.7.10889