Analysis of the Resonator Element in Different Positions in the Circular Patch Microstrip Antenna
DOI:
https://doi.org/10.1590/2179-10742021v20i1954Keywords:
Antenna design, patch, metamaterial, CSRR, gain.Abstract
In this article, a circular patch microstrip antenna with a metamaterial resonator for 4G applications is proposed. For the design of the circular antenna patch, an approximate calculation was performed. The circular resonator is inserted into the patch for some antennas, in different positions for a parametric study. When incorporating the resonator, the performance of the antenna is improved and analyzed through some parameters, when compared with the antenna without the resonator. To verify the influence of the resonator and validate its performance, simulated results were performed with the ANSYS HFSS® software and compared with the experimental results, through prototypes, in which they showed a good agreement.
References
C. A. Ballanis, “Antenna Theory: Analysis and Design,” New Jersey, 2005.
T. A. Elwi, “Novel UWB printed metamaterial microstrip antenna based organic substrate for RF-energy harvesting applications’, Intern. Journal of Elect.and Commun. , vol.101, pp. 44-53, 2019.
A. W. Saadh and T. Ali, “A compact coaxial fed metamaterial antenna for wireless applications”, Journal of Instrumentation, vol. 14, no. 6, pp. P06025, 2019.
D. C. Corrêa, U. C. Resende, F. S. Bicalho and Y. S. Gonçalves, “Design, optimization and experimental evalution of a F-shaped Multiband metamaterial antenna,” Journal of Microw. Opt. and Electrom. Applic., vol. 17, pp. 590-603, 2018.
V. G. Veselago, “The electrodynamics of substances with simultaneously negative values of E and mi,” Soviet Physics Uspekhi, vol. 10, pp. 509–514, 1968.
M. M. Islam, M. T. Islam, M. Samsuzzaman and M. R. I. Faruque, “Compact metamaterial antenna for UWB applications,” Electronics Letters, vol. 51, pp. 1222-1224, 2015.
R. Salhi, M. Labidi and F. Choubani, “A design of multi-band antenna based on active metamaterials,” Optical Materials, vol. 84, pp. 307-311, 2018.
S. Robinson, “Design and Analysis of split ring resonator based microstrip patch antenna for X-band applications,” Journal on Microelectronics, vol. 04, 2019.
N. I. Zheludev and Y. S. Kivshar, “From metamaterials to metadevices,” Nature Materials, vol. 11, no 11, p.917, 2012.
A. T. Devapriya and S. Robinson, “Investigation on metamaterial antenna for terahertz applications,” Journal of Microw. Opt. and Electrom. Applic., vol. 18, no 3, pp. 377-389, 2019.
D. A. Ketzaki and T. V. Yioultsis, “Metamaterial-based design of planar compact MIMO monopoles,” IEEE Trans. on Antennas and Prop., vol. 61, pp. 2758–2766, May 2013.
S. Robinson, “Design and Analysis of split ring resonator based microstrip patch antenna for X-band applications,” Journal on Microelectronics, vol. 04, 2019.
S. Naoui, L. Latrach and A. Gharsallah, “Metamaterials microstrip patch antenna for wireless communication RFID technology,” Microw. Opl. Technol. Lett., vol. 57, pp. 1060–1066, 2015.
J. G. D. Oliveira, E. N. M. G. Pinto, V. P. S. Neto and A. G. D’Assunção, ”CSRR-Based microwave sensor for dielectric materials characterization applied to soil water content determination’, Sensors, vol. 20, pp. 1–16, 2020.
T. Ali, A. W. M. Saadh, R. C. Biradar, J. Anguera and A. Andújar, ”A miniaturized metamaterial slot antenna for wireless applications,” Int. Journal Electronics Commun., vol. 82, pp. 368-382, 2017.
S. Roy, K. L Baishnab and U. Chakraborty, “Beam focusing compact wideband antenna loaded with mu-negative metamaterial for wireless LAN application”, Progress In Electrom. Research C, vol. 83, pp. 33-44, 2018.
D. C. Ochoa, D. E. Senior, F. Lopes and E. R. Vera, “Performance analysis of a microstrip patch antenna loaded with array of metamaterial resonators,” Intern. Symposium on Ant. and Propagation (APSURSI) 2016.
S. S. Islam, T. Alam, M. R. I. Faruque and M. T. Islam, ”Design and analysis of a complementary split ring resonator (CSRR) metamaterial based antenna for wideband application,” Science and Engineering of Composite Materials, vol. 24, pp. 573-580, 2017.
N. T. Selvi, R. Pandeeswari and P.T. Selvan, “An inset-fed rectangular microstrip patch antenna with multiple split ring resonator loading for WLAN and RF-ID application”, Progress In Electrom. Research C, vol. 81, pp. 41-52, 2018.
I. B. T. da Silva, H. D. de Andrade, J. L. da Silva, H. C. C. Fernandes and J. P. P. Pereira, “Design of microstrip patch antenna with complementary split ring resonator device for wideband systems application,” Microw. Opl. Technol. Lett., vol. 57, pp. 1326–1330, 2015.
I. B. T. da Silva, H. D. de Andrade, J. L. da Silva and H. C. C. Fernandes, “Influence of complementary split ring resonator dimensions in ultra wideband microstrip patch antenna,” Proceedings of the 2015 IEEE 9th European Conference on Antennas and Propagation (EuCAP), vol. 57, Lisbon, Portugal, pp. 1–5, 2015.
M. A. Matin, and A. I. Sayeed,”A design rule for inset-fed rectangular microstrip patch antenna”,WSEAS Transactions on Communications, vol. 9, 2010.
O. P. Lavor, Bi anisotropy in rectangular microstrip antennas and modified circular structures (in Portuguese), Ph.D. Thesis, Federal University of Rio Grande do Norte, Natal, RN, Brazil, 2015.
