Abstract
This paper discusses the enhancement of bandwidth in coaxial probe feed antenna achieved with double-sided complementary split ring resonator (CSRR). The split ring resonator loaded antenna is designed on an RT/duroid 5880 dielectric substrate with the relative permittivity of 2.2 and the thickness of 1.6 mm. The length and width of the substrate and antennas are 200 mm × 180 mm and 40 mm × 30 mm, respectively. The dimensions of SRR were chosen to achieve the maximum bandwidth. To determine the features expansion, a conventional antenna without complementary split ring resonator is designed using the substrate to operate at the same resonant frequency 2.4 GHz. Antenna structures like simple probe feed, single-sided SRR loaded on substrate, and double-sided SRR structures were designed, and characteristics of all structures are compared each other in terms of, return loss, VSWR, gain, and radiation pattern. From the designed antenna result, it is shown that the implementation of double-sided split ring resonators on substrate and ground can achieve the bandwidth enhancement was achieved compared to conventional simple probe feed antenna from 30 MHz to 11 GHz.
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References
Mohammad A, Mohammad N, Moghadasi RA, Sadeghzadeh F (2015) Bandwidth and radiation specifications enhancement of monopole antennas loaded with split ring resonators. IET Microwaves Antennas Propag 2(5):99–110
Farzad A, Changiz G, Javad N, Rasoul Z (2014) Bandwidth enhancement of patch antennas loaded with complementary split-ring resonators. In: Symposium on telecommunications. IEEE
Muhammad S, Antonio DC. A compact CSRR Enabled UWB diversity antenna. In: IEEE antennas and wireless propagation letters
Michalis N, Savvas R, Vasilis S, Traianos V. Fully planar CSRR-SIW slot antennas of optimized gain and enhanced bandwidth for millimeter wave and 5G communications. In: Proceedings of 2018 IEEE international RF and microwave conference
Ismail N, Siregar RA, Nusantara H, Munir A (2018) Wideband substrate integrated-waveguide BPF incorporated with complimentary-split-ring-resonators. In: Progress in Electromagnetics Research Symposium (PIERS-Toyama), Toyama, Japan, pp 1134–1137, Aug 2018
Mishra CS, Nayyar A, Kumar S, Mahapatra B, Palai G (2019) FDTD approach to photonic based angular waveguide for wide range of sensing application. Optik 176:56–59
Ade S, Nanang I, Mochamad Y (2018) Split ring resonator miniaturization of 2.4GHz SIW antenna using complementary split ring resonator. IEEE
Ismail, R. Siregar A, Nusantara H, and Munir A. Wideband substrate integrated-waveguide BPF incorporated with complimentary-split-ring-resonators. In: Progress in Electromagnetics, Research Symposium (PIERS-Toyama), Toyama, Japan, pp 1134–1137, Aug. 2018
Magthelin Therase L, Jayanthy T. Design of high gain and wideband microstrip antenna using complementary split ring resonator on epoxy resin material. In: Proceedings of the third international conference on I-SMAC (IoT in Social, Mobile, Analytics and Cloud) (I-SMAC 2019) IEEE Xplore
Ismail N, Latip A, Hamidi EAZ, Munir A (2019) Defected ground structure for characteristic enhancement of CSRR-based substrate integrated waveguide BPF. In: Progress in Electromagnetics Research Symposium (PIERS), Rome, Italy, Jun (1–4)
Aditomo W, Munir A (2013) Bandwidth enhancement of ultra-wideband microstrip bandpass filter using defected ground structure. In: 13th International Conference on Quality in Research (QiR), Yogyakarta, Indonesia, Jun, pp 150–154
Aditomo W, Munir A (2013) Bandwidth enhancement of ultra-wideband microstrip bandpass filter using defected ground structure. In: 13th International Conference on Quality in Research (QiR), Yogyakarta, Indonesia, pp 150–154, Jun 2013
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Kumari, E.K., Kumar, M.V., Sharma, P.K., Murugan, S. (2021). Double-Sided Split Ring Resonator-Based Probe Feed Patch Antenna with Enhanced Bandwidth for 5G and Ku Band Applications. In: Sharma, H., Gupta, M.K., Tomar, G.S., Lipo, W. (eds) Communication and Intelligent Systems. Lecture Notes in Networks and Systems, vol 204. Springer, Singapore. https://doi.org/10.1007/978-981-16-1089-9_37
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DOI: https://doi.org/10.1007/978-981-16-1089-9_37
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