
Circularly polarized designs of modified isosceles triangular microstrip antennas
Author(s) -
Deshmukh Amit A.,
Ray Kamla P.
Publication year - 2020
Publication title -
engineering reports
Language(s) - English
Resource type - Journals
ISSN - 2577-8196
DOI - 10.1002/eng2.12250
Subject(s) - isosceles triangle , circular polarization , offset (computer science) , axial ratio , optics , microstrip antenna , perpendicular , polarization (electrochemistry) , radiation pattern , mathematics , microstrip , physics , geometry , telecommunications , computer science , antenna (radio) , chemistry , programming language
The modified designs of different isosceles triangular microstrip antennas realized by overlapping two isosceles patches, are proposed for circularly polarized response. An offset distance between the two overlapped patches yield optimum spacing in between the orthogonal modes of the composite patch, to give circular polarization. Proposed configuration is investigated for angle increasing from 50° to 100°. An optimum response in terms of the bandwidth (BW) is obtained in 50° modified isosceles patch. Here, input impedance and axial ratio (AR) BW of 646 MHz (52%) and 76 MHz (6.12%), respectively, is obtained. As an additional design feature, proposed configuration shows variation in the center frequency of AR BW against increasing isosceles angle and the offset distance. Proposed designs exhibit broadside radiation pattern with a gain of above 8 dBi, with a good agreement between the simulated and measured results. A new simpler design for circular polarized response supported with detailed design methodology are the new technical contributions in the proposed work.