A Compact Dual Band LC Resonator Loaded MetarnateriaI Inspired Antenna for 5G Wireiess Communication

This paper presents the design analysis of a dual negative metamaterial inspired antenna loaded with LC resonator for 5G wireless application. The structure of the proposed metamaterial unit cell is similar to an electric field coupled LC-resonator except that a parallel inductive strip is connected...

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Main Authors: Rahman, Md. Mushfiqur, Islam, Md. Shabiul, Wong, Hin Yong, Lee, L., Islam, Mohammad Tariqul
Format: Conference Proceeding
Language:English
Subjects:
5G mobile communication
5G technology
Antennas
Bandwidth
LC resonator
metamaterial
Metamaterials
performance enhancement
Permeability
Permittivity
Resonant frequency
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creator Rahman, Md. Mushfiqur
Islam, Md. Shabiul
Wong, Hin Yong
Lee, L.
Islam, Mohammad Tariqul
description This paper presents the design analysis of a dual negative metamaterial inspired antenna loaded with LC resonator for 5G wireless application. The structure of the proposed metamaterial unit cell is similar to an electric field coupled LC-resonator except that a parallel inductive strip is connected to it. This resulted final design gives the negative value of permittivity and permeability with a durable negative index which improves the performance of the antenna. The proposed metamaterial antenna is designed on a FR4 substrate with a thickness of 1.575 mm and a dielectric constant of 4.3. The electrical dimensions of this antenna are 0.32 λ 0.33 λ at a low frequency of 3.43 GHz. The resulted antenna gives a dual band property with a -10dB impedance bandwidth of 12.196% and 26.935% covering the bandwidth of 3.434 GHz to 3.88 GHz and from 5.59 GHz to 7.33 GHz respectively. The realized gains at the two resonant frequencies are 2.1 dB and 3.98 dB. The improvement of the antenna performance after connecting the inductive strip parallel to the LC resonator reveals the fact that this type of modification can increase the performance of patch antenna.
doi_str_mv 10.1109/IconSpace.2019.8905981
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subjects 5G mobile communication
5G technology
Antennas
Bandwidth
LC resonator
metamaterial
Metamaterials
performance enhancement
Permeability
Permittivity
Resonant frequency
title A Compact Dual Band LC Resonator Loaded MetarnateriaI Inspired Antenna for 5G Wireiess Communication
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