Novel Horn Antenna for Large Element Spacing Phased Array

2022 IEEE 5th International Conference on Electronics Technology (ICET) Pub Date : 2022-05-13 DOI:10.1109/icet55676.2022.9825100

J. Zhuang, Hongchao Wu, Hong-bing Sun, Yongpeng Xie

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Abstract

This paper presents a novel Linearly Polarized (LP) horn antenna for the planar phased array radar composed of periodic subarrays with large element spacing. The proposed horn antenna is cascaded by a coaxial to waveguide transition and a modified pyramidal horn. To suppress the high-order modes and improve the radiation efficiency, a metal cross and a substrate cover are added to the radiation aperture of the horn. Meanwhile, with the using of metal cross, the field distribution at the aperture changes from the approximate cosine distribution of the conventional horn to the dual cosine distribution, which is more effective to suppress the broadside grating lobes of array factor. Moreover, in order to adjust the parasitic resonance caused by the gaps in-between the elements, a metal frame is added to the sidewall of the horn and the parasitic resonance can be tuned flexibly. The aperture size of the proposed horn antenna is about 1.43 λ × 1.43 λ (λ is the wavelength in the air). The simulated effective bandwidth of scan active voltage standing wave ratio (VSWR) ≤ 2.5 and gain ≥ 12.5 dBi is 24.4%, from 8.42 GHz to 10.76 GHz.

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用于大单元间距相控阵的新型喇叭天线

提出了一种用于大单元间距周期子阵组成的平面相控阵雷达的新型线极化喇叭天线。所提出的喇叭天线由同轴到波导的过渡和改进的锥体喇叭级联。为了抑制高阶模式并提高辐射效率，在喇叭的辐射孔径上增加了金属十字和基板盖。同时，采用金属交叉后，孔径处的场分布由传统喇叭的近似余弦分布转变为双余弦分布，更有效地抑制了阵列因子的宽边光栅瓣。此外，为了调节由元件之间的间隙引起的寄生共振，在喇叭的侧壁上增加了金属框架，可以灵活地调节寄生共振。所提出的喇叭天线孔径尺寸约为1.43 λ × 1.43 λ (λ为空气中的波长)。在8.42 GHz ~ 10.76 GHz范围内，扫描有效电压驻波比(VSWR)≤2.5、增益≥12.5 dBi的模拟有效带宽为24.4%。

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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2022 IEEE 5th International Conference on Electronics Technology (ICET)

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