Bow-Tie Patch Antenna with Different Shaped of Complementary Split Ring Resonator (SRR) Structures
Keywords:
Split Ring Resonator, Patch Antenna, bow-tie, Resonant Frequency, Return Loss,Abstract
In this paper, several shaped split ring resonator has been added to the bow-tie antenna design to improve it return loss or shifted the resonant frequency. Firstly, the design is started with the basic bow-tie patch antenna of Design A. Then, the single type of split ring resonator has been added to the bow-tie patch antenna. Six different shapes of single split ring resonator structures are designed in this work including circular SRR (Design Antenna B1), square SRR (Design Antenna B2), rhombic SRR (Design Antenna B3), spiral (Design Antenna B4), quadruple P-spiral SRR (Design Antenna B5) and Minkowski Island SRR (Design Antenna B6). Lastly, the bowtie patch antenna with double ring split ring resonator (Design Antenna C) had been done. For Design Antenna C, it shows that with the addition of split ring resonator, the frequency has been shifted from 2.40 GHz to 2.332 GHz. The return loss of this antenna increased from – 20.160 dB to – 27.617 dB.References
Smith, D. R., Padilla, W. J., Vier, D. C., Nemat-Nasser, S. C., and Schultz, S., “Composite Medium with Simultaneously Negative Permeability and Permittivity,” Physics Review Letter, no. 84, pp. 4184 – 4187, 2000.
Pendry, J. B., Holden, A. J., Robins, D. J., and W. J. Stewart, “Magnetism from Conductors and Enhanced Nonlinear Phenomena,”IEEE Transactions on Microwave Theory and Techniques, vol. 47, no. 11, pp. 2075 – 2084, 1999.
Lee, Y. S., Malek, M. F. B. A., Cheng, E. M., Liu, W. W., You, K. Y.,
Iqbal, M. N., Wee, F. H., Khor, S. F., Zahid, L., and Haji Abd Malek, M. F. b., “Experimental Determination of the Performance of Rice
Husk-Carbon Nanotube Composites for Absorbing Microwave Signals
in the Frequency Range of 12.4-18 GHz,” Progress In Electromagnetics Research, no. 140, pp. 795-812, 2013.
Mazlan, M. H., Ahmad, B. H., Husain, M. N., Zakaria, Z., Shairi, N.., “Single and Cascaded Substrate Integrated Waveguide Bandstop
Filter for Interference Suppression in X-Band Region,” 1st CRIL International Conference on Innovation in Science and Technology (lICIST 2015), pp. 592 – 595, 2015.
Mahyuddin, N. M., Ab. Kadir, N. F. S., “Design of a 5.8 GHz Bandstop Filter Using Split Ring Resonator Array,” The 8th International Conference on Robotic, Vision, Signal Processing & Power Applications. Lecture Notes in Electrical Engineering, no. 291, pp. 473 – 482, 2014.
Abdalla, M. A., and Zihrun, H., “On The Study of Development of X Band Metamaterial Radar Absorber,” Advanced Electromagnetics, vol. 1, no. 3, pp. 94 – 98, 2012,
Bruster A., Zakaria Z., Ruslan E., Mutalib M. A., “A Review of Bandpass with Tunable Notch Microwave Filter in Wideband
Application,” International Journal of Engineering and Technology
(IJET), vol. 7, no. 3, pp. 825-832, 2015.
Zakaria Z., Mutalib M. A., Sam W. Y., Fadzil M. F. M., “Integrated
suspended stripline structure (SSS) with J-shape defected stripline structure (DSS) to remove undesired signals in wideband applications,” 9th European Conference on Antennas and Propagation(EuCAP), pp. 1-5, 2015.
Aznar, F., Bonache, J., Martin, F., Ozbay, E., Alici, K. B., Bilotti, F.,
Tricarico, S., Vegni, L., Baena, J. D., Jelinek, L., Marques, R.,
“Miniaturization and Characterization of Metamaterial Resonant
Particles,” 38th European Microwave Conference (EuMC 2008), pp.
– 272, 2008.
García-García, J., Bonache, J., Gil, I., Martín, F., Ahumada, M. del C.V. and Martel, J., “Miniaturized Microstrip and CPW Filters Using Coupled Metamaterial Resonators,” IEEE Transactions on Microwave Theory and Techniques, vol. 54, no. 6, pp. 2628 – 2635, 2006.
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