Corporate-feed slotted wavguide array antenna at 350 GHz band by silicon process

2016 IEEE International Symposium on Antennas and Propagation (APSURSI) Pub Date : 2016-10-25 DOI:10.1109/APS.2016.7696306

K. Tekkouk, J. Hirokawa, K. Oogimoto, T. Nagatsuma, H. Seto, Y. Inoue, M. Saito

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引用次数: 1

Abstract

A corporate feed slotted waveguide array antenna with broadband characteristics in term of gain in the 350 GHz band is achieved by measurement for the first time. The etching accuracy for thin laminated plates of the diffusion bonding process with conventional chemical etching is limited to ±20μm. This limits the use of this process for antenna fabrication in the submillimeter wave band where the fabrication tolerances are very severe. To improve the etching accuracy of the thin laminated plates, a new fabrication process has been developed. Each silicon wafer is etched by DRIE (deep reactive ion etcher) and is plated by gold on the surface. This new fabrication process provides better fabrication tolerances about ±5μ™ using wafer bond aligner. The thin laminated wafers are then bonded with the diffusion bonding process under high temperature and high pressure. To validate the proposed antenna concepts, four antenna prototypes have been designed and fabricated in the 350 GHz band. The 3dB-down gain bandwidth is about 35GHz by this silicon process while it was about 15GHz by the conventional process using metal plates in measurement.

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350千兆赫频段的硅工艺公司馈电开槽波导阵列天线

通过测量，首次实现了在350ghz频段具有宽带增益特性的企业馈电开槽波导阵列天线。传统化学蚀刻法对扩散键合薄板的蚀刻精度限制在±20μm。这限制了该工艺在亚毫米波波段天线制造中的使用，因为该波段的制造公差非常严格。为了提高薄层板的刻蚀精度，提出了一种新的制备工艺。每片硅片都经过DRIE(深度反应离子蚀刻机)蚀刻，表面镀金。这种新的制造工艺使用晶圆键合对准器提供了更好的制造公差，约为±5μ™。然后在高温高压下采用扩散键合的方法对薄片进行键合。为了验证所提出的天线概念，在350 GHz频段设计并制造了四个天线原型。这种硅制程的3db下增益带宽约为35GHz，而采用金属板测量的传统制程的3db下增益带宽约为15GHz。

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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2016 IEEE International Symposium on Antennas and Propagation (APSURSI)

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