具有改进带宽和可靠性的紧凑型3d打印兼容双极化球形谐振器天线

2023 IEEE Radio and Wireless Symposium (RWS) Pub Date : 2023-01-22 DOI:10.1109/RWS55624.2023.10046311

Shuai Deng, Jin Li, Tao Yuan

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引用次数: 0

摘要

本文提出了一种体积小、结构紧凑的宽带毫米波双极化球形谐振器天线。天线的双极化特性归因于球面谐振腔的高度对称几何结构和内部谐振模式的正交性。宽带和稳定的DP辐射性能是由一个准十字形式的辐射孔径，本质上是两个正交椭圆槽的组合。这样的配置增强了辐射结构的机械强度，有效地提高了毫米波频率下应用的天线可靠性。演示了一种ka波段DP天线样机。天线原型是通过基于聚合物的Polyjet 3d打印和化学镀铜工艺制造的。天线在其中一个极化方向上的射频测量结果与仿真结果吻合较好，在26.5 ~ 39 GHz(相对带宽为38.2%)范围内实现了宽带稳定的辐射性能，带内反射系数小于-10 dB，峰值实现增益为7 ~ 9 dBi。

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A Compact 3-D-Printing-Compatible Dual-Polarized Spherical Resonator Antenna With Improved Bandwidth and Reliability

In this paper, a size-compact and wideband millimeter-wave dual-polarized (DP) spherical resonator antenna is proposed. The dual-polarization behavior of the antenna is attributed to a highly symmetrical geometry of the spherical resonator and orthogonality of the resonant modes inside. The wideband and stable DP radiation performance is enabled by a single quasicruci-form radiation aperture that is essentially a combination of two orthogonal elliptical slots. The configuration as such enhances mechanical strength of the radiation structure and effectively improves the antenna reliability for applications at millimeter-wave frequencies. A Ka-band DP antenna prototype is demonstrated. The antenna prototype is manufactured monolithically by using polymer-based Polyjet 3-D printing and electroless copper plating processes. The RF-measured result of the antenna in one of the polarization orientations is in good agreement with the simulated one, validating wideband and stable radiation performance from 26.5 to 39 GHz (a relative bandwidth of 38.2%) with an in-band reflection coefficient of less than -10 dB and peak realized gains of 7–9 dBi.

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2023 IEEE Radio and Wireless Symposium (RWS)

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