A Low-Profile Tapered Slot Antenna Array with Two-Decade (20:1) Bandwidth

2021 IEEE International Symposium on Antennas and Propagation and USNC-URSI Radio Science Meeting (APS/URSI) Pub Date : 2021-12-04 DOI:10.1109/APS/URSI47566.2021.9704158

Peter D. Moschetti, R. Hasse, Joshua D. Gustafson, T. Hand, J. Torres

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Abstract

Realizing an antenna for ultra-wide bandwidth operation while maintaining a low profile are two necessary steps for many space-based antenna arrays. As the desire for more bandwidth increases, so does the complexity and engineering required to make such an element viable. Traditionally, to achieve bandwidths stretching from UHF to SHF require physically large elements with a half wavelength spacing in an array setting to get the desired performance. Some antennas even sacrifice performance (mismatch, loss) to achieve a wide bandwidth. The tapered slot antenna design presented in this paper achieves a 20:1 bandwidth, and is electrically small. The design takes advantage of a multiplexed matched feed method to get a good match across each band. The element is built utilizing 3D printing to aid the producibility of the unique structures associated with the design. The array aperture is dual linear with vertical and horizontal polarizations.

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二十年(20:1)带宽的低轮廓锥形缝隙天线阵列

对许多天基天线阵列来说，在保持低姿态的同时实现超宽带工作是两个必要步骤。随着对更多带宽的需求增加，使这种元件可行所需的复杂性和工程也在增加。传统上，为了实现从UHF到SHF的带宽延伸，需要在阵列设置中具有一半波长间隔的物理大元件才能获得所需的性能。有些天线甚至牺牲性能(失配、损耗)来获得更宽的带宽。本文提出的锥形缝隙天线设计实现了20:1的带宽，并且电性能小。该设计利用了一种多路匹配馈电方法，在每个波段上获得良好的匹配。该元素是利用3D打印来帮助与设计相关的独特结构的可生产性。阵列孔径为双线性，具有垂直和水平极化。

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2021 IEEE International Symposium on Antennas and Propagation and USNC-URSI Radio Science Meeting (APS/URSI)

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