A Beam-Steering Dielectric Resonator Antenna without Beamforming Network

2019 IEEE International Conference on Computational Electromagnetics (ICCEM) Pub Date : 2019-03-20 DOI:10.1109/COMPEM.2019.8778969

Y. Y. Tan, S. Zheng

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Abstract

A novel beam-steering dielectric resonator antenna (DRA) without beamforming network is presented in this paper. Instead of adopting the most common way of combining array antennas with beamforming networks to achieve beam steering, the proposed DRA has a very simple structure, with only a single rectangular dielectric resonator (DR) as its radiator. Three microstrip lines are employed to feed the DRA through three slots etched on the ground plane respectively. Between every two microstrip lines lies a decoupling network to improve the isolation of the ports. When one of the three ports is excited and the other two are terminated to 50 Ω impedance, the radiator is fed accordingly at different positions and can generate three different tilted radiation beams in total. As a result, beam steering can be achieved using a single DRA without beamforming network. For demonstration, a single beam-steering DRA without beamforming network working at 5.25 GHz is designed and simulated. The proposed antenna has a bandwidth of 5% and an isolation higher than 15 dB at the center frequency. The three main beams are tilted to -40°, 0° and 40°, with an antenna gain of around 7.45 dBi.

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无波束形成网络的波束导向介质谐振器天线

提出了一种新型无波束形成网络的定向波束介质谐振器天线。采用阵列天线与波束形成网络相结合的方式实现波束导向，本文提出的DRA结构非常简单，只有一个矩形介质谐振器(DR)作为其辐射器。采用3条微带线分别通过接地面上蚀刻的3个槽给DRA供电。在每两条微带线之间有一个去耦网络，以提高端口的隔离性。当其中一个端口被激励，另外两个端口端接至50 Ω阻抗时，相应地在不同位置馈电散热器，总共可以产生三个不同的倾斜辐射束。因此，可以使用单个DRA实现波束导向，而无需波束形成网络。为了验证这一点，设计并仿真了5.25 GHz无波束形成的单波束导向DRA网络。该天线的带宽为5%，中心频率的隔离度高于15db。三个主波束倾斜为-40°，0°和40°，天线增益约为7.45 dBi。

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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2019 IEEE International Conference on Computational Electromagnetics (ICCEM)

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