Design & Analysis of L-Shaped Fractal Antenna using Microstrip line feed and Inset Cut line feed technique

International Journal of Electronics and Communication Engineering

© 2019 by SSRG - IJECE Journal

Volume 6 Issue 8

Year of Publication : 2019

Authors : Er. Richa Arora, Dr. Suyeb Ali Khan, Er. Parwinder Kaur, Er. Ashish Chand

10.14445/23488549/IJECE-V6I8P102

How to Cite?

Er. Richa Arora, Dr. Suyeb Ali Khan, Er. Parwinder Kaur, Er. Ashish Chand, "Design & Analysis of L-Shaped Fractal Antenna using Microstrip line feed and Inset Cut line feed technique," SSRG International Journal of Electronics and Communication Engineering, vol. 6,  no. 8, pp. 12-17, 2019. Crossref, https://doi.org/10.14445/23488549/IJECE-V6I8P102

Abstract:

This paper takes a research on the design of L-Shaped Fractal antenna for wireless communication. The proposed patch antenna can resonate at 5GHz Frequency. This paper describes the two types of feeding techniques: Microstrip line feed and inset cut line feed. To accomplish multiband Frequency, the proposed finite element method is employed to design the Fractal antenna. It is a fractal antenna, so that is why shapes are repeated the same in particular designs. The L- shapes slots are etched from the patch to improve the gain and return loss of the antenna. In the L-Shaped antenna design, firstly designed the antenna's shape and designed on FR4-epoxy substrate with dielectric constant 4.4 and thickness 1.6mm. The proposed antenna is designed to analyze the different antenna parameters such as Gain, Return loss, and VSWR. The proposed antenna is designed and simulated by using HFSS (High-Frequency Structure Simulator) V13 software. It is recommended to be useful in S, C, and X bands, respectively, along with that the proposed design has improved return loss, gain, and VSWR.

Keywords:

Fractal Antenna, Microstrip line feed, Inset Cut line feed, Return loss, gain, and VSWR.

References:

[1] M.Sahoo, S.Pattnaik and S.Sahu, ”Design of compact UWB hexagonal monopole antenna with frequency notch characteristics,” International Conference on Circuit, Power and Computing Technologies (ICCPCT),2015.
[2] M.Susila.T.R.Rao and A.Gupta, ”A novel fractal antenna design for UWB wireless communications,” IEEE, International Microwave and RF Conference (IMaRC), pp. 118-120,2014.
[3] N.Prema, Anil Kumar, “Design of multiband microstrip patch antenna for C and X,” Optik 127 (2016)8812-8818
[4] P.S. Bakariya, S. Dwari, M. Sarkar, M.K. Mandal, ”Proximity-Coupled microstrip antenna for Bluetooth, WiMAX, and WLAN applications,” IEEE AntennasWirel. Propag. Lett. 14 (2015).
[5] S.Behera and D.Barad, “A novel design of microstrip fractal antenna for wireless sensor network,” IEEE, InernationalConfrence of Power, Energy, Information and Communication, pp. 0470-0474,2015.
[6] T.Landeau, O.Losito, G.Palma, V.Portosi, A. Jouanneaux and F.Prudenzano, ”Multiband Rohmbus Monopole Antenna,” GeMic, pp.367-370,2015
[7] V.vaid and S.Agarwal, ”Bandwidth optimization using fractal geometry on rectangular microstrip patch antenna with DGS for wireless applications,” International conference on medical Imaging, M-health and Emerging Communication Systems (MedCom), pp.162-167,2014.
[8] F.Daneshmandian, P.Dekhoda, and A.Tavakoli, ”A miniaturization circularly polarized microstrip antenna for GPS applications,” IEEE 22nd Iranian Conference on Electrical Engineering (ICEE), pp.1653-1656,2014
[9] K. V. Kumar, V. I. Nair, and V. Asokan, “Design of a microstrip fractal patch antenna for UWB applications,” IEEE 2nd International Conference on Innovation in Information Embedded and Communication Systems (ICIIECS), 2015.
[10] M. M. M. Ali, A. M. Azmy and O. M. Haraz, “Design and implementation of reconfigurable quad-band microstrip antenna for MIMO wireless communication applications,” IEEE 31st National Radio Science Conference (NRSC), pp. 27-34, 2014.
[11] VD.Raj, A.M.Prasad, M.Satyanarayana, and G.M.V. Prasad, “Implementation of printed microstrip Apollonian gasket fractal antenna for multiband wireless applications,” IEEE, International Conference on SPACES, pp.200-204,2015.
[12] Manpreet Kaur and Er. Amandeep Singh, "Design of Fractal Antenna for RFID Applications" SSRG International Journal of Electronics and Communication Engineering 1.7 (2014): 13-18.
[13] Rupesh Tomar, Paridhi Mudgal and Gaurav Chaitanya, "Investigation of Modified Sierpinski Square Fractal Antenna on Finite and Infinite Ground Planes" SSRG International Journal of Electronics and Communication Engineering 3.6 (2016): 1-4.
[14] V.Indhumathi, "Design of koch fractal bow tie antenna for wireless applications" SSRG International Journal of Mobile Computing and Application 1.2 (2014): 4-7.