Design of Ultra-Wideband Tapered Slot Antenna Using Novel Feeding Structure

2022 International Conference on Advanced Technologies for Communications (ATC) Pub Date : 2022-10-20 DOI:10.1109/ATC55345.2022.9943020

Huy Ho-Sy-Nhat, Phuong-Linh Hoang, S. Ta, Khac Kiem Nguyen, Chien Dao-Ngoc

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Abstract

This paper proposes a printed ultra-wideband (UWB) tapered-slot antenna (TSA) using a novel feeding structure. It consists of two symmetrical radiating flares printed on the top-side of a dielectric substrate. The feeding structure employs novel microstrip-to-slot transformers with via, circular stubs, and circular slots to realize UWB out-of-phase power divider features, which serves as a differential-feed scheme for the two radiating flares. The final design of the proposed TSA with dimensions of 150 mm ×98 mm ($0.58\lambda_{min} \times 0.38\lambda_{min}$, where $\lambda_{min}$ is the wavelength at the lowest operational frequency) is fabricated and measured. Both simulation and measurement result in an impedance matching bandwidth of 160% (1.19 – 11 GHz). Moreover, across its impedance matching bandwidth, the antenna prototype achieves a good end-fire radiation with the peak gain of 10.2 dBi, highly symmetric pattern, small cross-polarization level, and high front-to-back ratio.

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基于新型馈电结构的超宽带锥形缝隙天线设计

本文提出了一种采用新型馈电结构的印刷超宽带锥形缝隙天线。它由两个对称的辐射耀斑印刷在电介质衬底的顶部。馈电结构采用新颖的微带-槽变压器，带通孔、圆桩和圆槽，实现超宽带失相功率分配器功能，作为两个辐射耀斑的差动馈电方案。所提出的TSA的最终设计尺寸为150 mm ×98 mm ($0.58\lambda_{min} \乘以0.38\lambda_{min}$，其中$\lambda_{min}$为最低工作频率的波长)。仿真和测量结果表明，阻抗匹配带宽为160% (1.19 - 11 GHz)。此外，在其阻抗匹配带宽范围内，天线原型实现了良好的端射辐射，峰值增益为10.2 dBi，方向图高度对称，交叉极化电平小，前后比高。

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2022 International Conference on Advanced Technologies for Communications (ATC)

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