Electrical Size Reduction of Microstrip Antennas by Using Defected Ground Structures Composed of Complementary Split Ring Resonator
Citation
KÜÇÜKÖNER, Elif M., Alparslan ÇINAR, Umut KÖSE & Evren EKMEKÇİ. "Electrical Size Reduction of Microstrip Antennas by Using Defected Ground Structures Composed of Complementary Split Ring Resonator". Advanced Electromagnetics, 10.1 (2021): 62-69.Abstract
In this study the effects of using defected ground structures (DGS) composed of a
complementary split ring resonator (CSRR) and CSRR with dumbbell (CSRR-D) for rectangular microstrip
antennas are investigated. On this aim, two different antennas, which are Antenna B having CSRR etched
DGS and Antenna C having CSRR-D etched DGS are designed and fabricated in comparison with the
ordinary rectangular patch antenna, which is Antenna A. In both Antenna B and C, CSRR structures are
etched in the same position of the ground planes. On the other hand, another ordinary microstrip antenna,
called Antenna D, is designed at resonance frequency of Antenna C. For the characterization, resonance
frequencies, voltage standing wave ratios, percentage bandwidths, gains, ka values and gain radiation
patterns are investigated both in simulations and experiments. The numerical analyses show that 29.39 %
and 44.49 % electrical size reduction (ESR) ratios are obtained for Antenna B and Antenna C, respectively
in comparison to Antenna A. The experimental results verify the ESR ratios with 29.15 % and 44.94 %.
Supporting, Antenna C promises 68.12 % physical size reduction (PSR) as it is compared with Antenna D.
These results reveal that Antenna C is a good alternative for DGS based microstrip electrically small
antennas.