Metasurface based MIMO Microstrip Antenna with Reduced Mutual Coupling

Sthembile Dubazane, P. Kumar, T. Afullo
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引用次数: 1

Abstract

In this paper, a negative permeability (μ) metasurface is used to reduce a 2-port Multiple-Input Multiple-Output (MIMO) rectangular inset fed microstrip antenna’s mutual coupling. Three metasurface wall based mutual coupling reduction designs are modelled, simulated and compared. All designs are formulated by placing a metasurface wall vertically between the two radiating antenna elements. The first antenna design is achieved by placing a single metasurface wall between the two antenna elements. While the second and third designs are achieved by placing the double and triple metasurface wall, respectively. In the first design, a slight increase of 0.5 dB in the antenna’s mutual coupling is seen. While the second design achieves a mutual coupling reduction from −23 dB to −34 dB. Lastly, the third design achieves the mutual coupling reduction from −23 dB to −34 dB, while obtaining up to 17% bandwidth enhancement at (5.86 – 6.10) GHz frequency range. The microstrip antenna, which operates at the (5.9 – 6.1) GHz band, is designed for 5G applications at the extended 6 Ghz band (5.9 –.5) Ghz. The extended band is chosen due to its new additional spectrum which results to less noise interference.
减少互耦的超表面MIMO微带天线
本文采用负磁导率(μ)超表面来降低2端口多输入多输出(MIMO)矩形插入式微带天线的互耦。对三种基于超表面壁的互耦减少设计进行了建模、仿真和比较。所有设计都是通过在两个辐射天线元件之间垂直放置超表面壁来制定的。第一个天线设计是通过在两个天线元件之间放置一个单一的超表面壁来实现的。而第二和第三种设计是通过放置双重和三重超表面墙来实现的。在第一个设计中,可以看到天线的相互耦合略微增加了0.5 dB。而第二种设计实现了从−23 dB到−34 dB的相互耦合降低。最后,第三种设计实现了从- 23 dB到- 34 dB的互耦降低,同时在(5.86 - 6.10)GHz频率范围内获得了高达17%的带宽增强。微带天线工作在(5.9 - 6.1)GHz频段,专为扩展6ghz频段(5.9 - 0.5)GHz的5G应用而设计。选择扩展频带是因为它增加了新的频谱,从而减少了噪声干扰。
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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