Broadside coupled split ring resonator based multiband monopole patch antenna for wireless communication applications

Joe Kizhakooden, Jovia Jose, Nees Paul, Sreedevi P. Chakyar, Anju Sebastian, Sikha K. Simon, K. Umadevi, C. Bindu, J. Andrews, V. Joseph
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Abstract

The present work reports the development of a multiband monopole patch antenna by utilizing Broadside Coupled Split Ring Resonator (BCSRR) units. This antenna makes use of the resonant property of metamaterial BCSRR units for multiband frequency designing. Since the magnetic resonant frequency of the BCSRR depends on the effective capacitance and inductance of its rings, the geometrical parameters of the rings like inter planar distance between them, inner and outer radii, split widths and the dielectric material between the rings play important role in designing the radiating frequency bands of the proposed antenna. The desired frequencies for potential applications like Bluetooth, Wi-Fi and Wi-Max are thus achieved by proper designing of the BCSRR units. In this work, it is demonstrated that two additional frequencies can be radiated along with the monopole radiation by coupling two BCSRR units to the monopole. The fabricated antenna exhibits high return loss at 2.45 GHz and 2.75 GHz along with the monopole radiation around 5 GHz. The number of operating frequencies can be increased by adding more BCSRR units at various positions near to the monopole patch. The proposed antenna is compact, light weight and easy to design and fabricate when compared with the recently reported multiband monopole antennas. The good agreement between the experimental and simulated results shows that the proposed antenna is a suitable candidate for potential wireless applications. The different antennas for different applications in a single device can be replaced with the single proposed antenna.The present work reports the development of a multiband monopole patch antenna by utilizing Broadside Coupled Split Ring Resonator (BCSRR) units. This antenna makes use of the resonant property of metamaterial BCSRR units for multiband frequency designing. Since the magnetic resonant frequency of the BCSRR depends on the effective capacitance and inductance of its rings, the geometrical parameters of the rings like inter planar distance between them, inner and outer radii, split widths and the dielectric material between the rings play important role in designing the radiating frequency bands of the proposed antenna. The desired frequencies for potential applications like Bluetooth, Wi-Fi and Wi-Max are thus achieved by proper designing of the BCSRR units. In this work, it is demonstrated that two additional frequencies can be radiated along with the monopole radiation by coupling two BCSRR units to the monopole. The fabricated antenna exhibits high return loss at 2.45 GHz and 2.75 GHz along with the mono...
基于宽频耦合分环谐振器的多波段单极贴片无线通信天线
本文报道了利用宽边耦合分环谐振器(BCSRR)单元研制多波段单极贴片天线。该天线利用超材料BCSRR单元的谐振特性进行多频段频率设计。由于BCSRR的磁谐振频率取决于其环的有效电容和电感,因此环之间的平面间距、内外半径、分裂宽度和环之间的介电材料等几何参数对天线辐射频带的设计起着重要作用。因此,通过适当设计BCSRR单元,可以实现蓝牙、Wi-Fi和Wi-Max等潜在应用所需的频率。在这项工作中,通过将两个BCSRR单元耦合到单极子上,证明了两个额外的频率可以与单极子辐射一起辐射。该天线在2.45 GHz和2.75 GHz处回波损耗高,单极子辐射在5 GHz左右。通过在单极贴片附近的不同位置增加BCSRR单元,可以增加工作频率的数量。与现有的多波段单极天线相比,该天线具有结构紧凑、重量轻、易于设计和制造等优点。仿真结果与实验结果吻合较好,表明该天线是潜在无线应用的理想选择。单个设备中不同应用的不同天线可以用单个建议天线代替。本文报道了利用宽边耦合分环谐振器(BCSRR)单元研制多波段单极贴片天线。该天线利用超材料BCSRR单元的谐振特性进行多频段频率设计。由于BCSRR的磁谐振频率取决于其环的有效电容和电感,因此环之间的平面间距、内外半径、分裂宽度和环之间的介电材料等几何参数对天线辐射频带的设计起着重要作用。因此,通过适当设计BCSRR单元,可以实现蓝牙、Wi-Fi和Wi-Max等潜在应用所需的频率。在这项工作中,通过将两个BCSRR单元耦合到单极子上,证明了两个额外的频率可以与单极子辐射一起辐射。制备的天线在2.45 GHz和2.75 GHz时显示出较高的回波损耗。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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