Low-Cost Phased Array Feed System for Radio Astronomy and Wide-Angle Scanning Applications

2019 IEEE International Symposium on Phased Array System & Technology (PAST) Pub Date : 2019-10-01 DOI:10.1109/PAST43306.2019.9020966

Sara Salem Hesari, L. Locke, L. Knee, J. Bornemann

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Abstract

A low-cost antenna array feed system for 15.4-20.0 GHz is presented. The dual linear polarization, 24- element antenna array and feed network are constructed from single substrate layers, include substrate integrated waveguide- to-microstrip transitions, and coaxial connectors. The individual antennas are arranged on an x-y grid through a metallic backplane that mechanically supports the array and electrically provides a ground plane which reduces back lobes of the end-fire beams and improves directivity. The planar antipodal dipole antenna elements and metal backplane are assembled into a dual linear array, and tested. The phased array's measured results, which are ±40□ scanning range in azimuth and elevation, cross-polar values of 18 dB, wide operating frequency range and flat gain, make the proposed antipodal dipole antenna a viable low-cost candidate for phased array antennas and for use in radio astronomy and wide-angle scanning applications. Measurements are in good agreement with simulations, thus validating the design process.

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用于射电天文学和广角扫描的低成本相控阵馈电系统

提出了一种低成本的15.4 ~ 20.0 GHz天线阵馈电系统。双线极化、24元天线阵列和馈电网络由单衬底层构成，包括衬底集成波导到微带转换和同轴连接器。单个天线通过金属背板排列在x-y网格上，金属背板在机械上支持阵列，并在电气上提供接地平面，从而减少端火波束的后叶并提高指向性。将平面对映偶极子天线单元和金属背板组装成双线性阵列，并进行了测试。相控阵的测量结果为±40□的方位角和仰角扫描范围，18 dB的交叉极性值，宽的工作频率范围和平坦的增益，使所提出的对足偶极天线成为相控阵天线的可行的低成本候选天线，并用于射电天文学和广角扫描应用。测量结果与仿真结果很好地吻合，从而验证了设计过程。

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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2019 IEEE International Symposium on Phased Array System & Technology (PAST)

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