Fixed-Frequency 2-D Wide-Angle Scanning Leaky-Wave Array With Reconfigurable Probe-Fed Magneto-Electric Dipole

IF 3.5 Q2 ENGINEERING, ELECTRICAL & ELECTRONIC

IEEE Open Journal of Antennas and Propagation Pub Date : 2025-02-18 DOI:10.1109/OJAP.2025.3543251

Kai Qin;Bingjie Xiang;Kwai-Man Luk

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Abstract

A new 2-D scanning leaky-wave antenna (LWA) design is proposed, with a scanning range larger than competitors. It consists of a 1-bit reconfigurable magneto-electric (ME) dipole array and a pillbox beam-forming network (BFN). The probe-fed ME dipole is minimized to fit the holographic method and is introduced in LWA for the first time. A p-i-n diode is loaded in the L-shaped directly-fed probe to control whether it radiates. The dispersion characteristic of the linear LWA is examined to validate the effectiveness of the holographic method. A procedure is proposed to select the port and hologram for any-angle 2-D beam scanning. The prototype is fabricated and measured, and the results demonstrate the improved scanning range. The scanning range under the 3 dB gain decline condition covers ±54° across the broadside in the H-plane and ±37° in the E-plane in simulation. This design has the advantage of a wider scanning angle, 2-D scanning capability, and low cost. It may find applications in sensing, base stations, and vehicle communications.

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可重构探针馈入磁电偶极子的定频二维广角扫描漏波阵列

提出了一种新的二维扫描漏波天线（LWA）设计，其扫描范围比竞争对手大。它由一个1位可重构磁电偶极子阵列和一个药盒波束形成网络组成。为了适应全息方法，将探针馈入的ME偶极子最小化，并首次引入到LWA中。一个p-i-n二极管加载在l形直接馈电探头，以控制其是否辐射。研究了线性LWA的色散特性，验证了全息方法的有效性。提出了一种选择任意角度二维光束扫描端口和全息图的方法。制作了样机并进行了测量，结果表明扫描范围得到了改善。在3db增益下降条件下，模拟的扫描范围为h面±54°，e面±37°。该设计具有扫描角度更宽、二维扫描能力强、成本低等优点。它可以在传感、基站和车辆通信中找到应用。

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