基于悬浮寄生像素层的60 GHz模式可重构天线设计

2018 Al-Mansour International Conference on New Trends in Computing, Communication, and Information Technology (NTCCIT) Pub Date : 2018-11-01 DOI:10.1109/NTCCIT.2018.8681182

M.W. Mustafa, Lubab A. Salman

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引用次数: 0

摘要

提出了一种60 GHz多功能可重构天线(MRA)，可在15个可操纵波束方向的15种模式下工作。该MRA由一个孔径耦合矩形贴片天线作为主辐射体和一个悬浮寄生层组成，寄生层由一个具有5 × 5方形金属像素网格的薄电介质支撑组成。相邻的像素可以通过电子开关连接或断开，将网格变成一组可重构的寄生元素。这反过来控制寄生层范围内的电流分布，从而使不同的波束转向方向对天线带宽和工作频率的影响最小。仿真结果表明，所有15种工作模式在60 GHz时的公共阻抗带宽约为4.6%，实现增益范围为6.82 ~ 9.47 dBi。对于半功率波束宽度在49°至106°范围内的大多数工作模式，旁瓣电平远高于8db。

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A 60 GHz Pattern-Reconfigurable Antenna Design Using a Suspended Parasitic Pixel Layer

A 60 GHz multifunctional reconfigurable antenna (MRA) capable of operating in fifteen modes corresponding to fifteen steerable beam directions is presented. The MRA consists of an aperture coupled rectangular patch antenna as the main radiator and a suspended parasitic layer consisting of a thin dielectric support with a grid of 5 x 5 square metallic pixels. Adjacent pixels can be connected or disconnected by means of electronic switches turning the grid into a reconfigurable set of parasitic elements. This in turn controls the current distribution over the extent of the parasitic layer enabling therefore different beam steering directions with minimal impact on the antenna bandwidth and operating frequency. Simulation results show a common impedance bandwidth of about 4.6% at 60 GHz for all fifteen modes of operation with realized gains ranging from 6.82 to 9.47 dBi. Side-lobe levels are well above 8 dB for most modes of operation with half-power beam widths in the range of 49° to 106°.

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2018 Al-Mansour International Conference on New Trends in Computing, Communication, and Information Technology (NTCCIT)

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