IJBTT

Fibonacci Series-Motivated Sequential-Elliptical-Pyramid Slotted Microstrip Antenna with C-Band and X-Band Isolation Features

Fibonacci Series-Motivated Sequential-Elliptical-Pyramid Slotted Microstrip Antenna with C-Band and X-Band Isolation Features
	© 2022 by IJETT Journal
	Volume-70 Issue-8
	Year of Publication : 2022
	Authors : Ananda Kumar Behera, Debasis Mishra, S Nallusamy, Diptimayee Konhar, Suvendu Narayan Mishra
	DOI : 10.14445/22315381/IJETT-V70I8P211

How to Cite?

Ananda Kumar Behera, Debasis Mishra, S Nallusamy, Diptimayee Konhar, Suvendu Narayan Mishra, "Fibonacci Series-Motivated Sequential-Elliptical-Pyramid Slotted Microstrip Antenna with C-Band and X-Band Isolation Features," International Journal of Engineering Trends and Technology, vol. 70, no. 8, pp. 118-125, 2022. Crossref, https://doi.org/10.14445/22315381/IJETT-V70I8P211

Abstract
This prospective article introduces a CPW-fed slot antenna inspired by the Fibonacci series, which results in band isolation characteristics. We have utilized one of the standard predefined mathematical number series, the Fibonacci series, to scrutinize the design. The simulation of the proposed antenna involves a wide range of frequencies. The slot in the radiating/ conducting plane takes the form of a successive-elliptical pyramid and is so etched that the lengths of their major axes are in the Fibonacci series. The successive-elliptical pyramid-fashioned radiating patch also follows the Fibonacci series, which emits in the frequency range of 5.93 GHz to 13.35 GHz with 7.42 GHz bandwidth. The insertion of inverted dual-comb-like slots in the ground plane isolates the C-band and X-band, where the slot lengths are also in the Fibonacci series. We have simulated the proposed antenna structure in CST (Computer Simulation Technology) and HFSS (High Frequency Structure Simulator) platforms. The final observed results showed that both the experimental findings and simulation outcomes follow each other.

Keywords
Band Isolation, Compact, Dual-Comb, Ellipticity, Fibonacci Series.

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