Low-Loss Silicon Micromachined Waveguides Above 100 GHz Utilising Multiple H-Plane Splits

2018 48th European Microwave Conference (EuMC) Pub Date : 2018-09-01 DOI:10.23919/EUMC.2018.8541605

B. Beuerle, J. Campion, U. Shah, J. Oberhammer

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引用次数: 1

Abstract

For sub-millimeter and millimeter wave applications rectangular waveguides are an ideal transmission medium. Compared to conventional, metal-milled rectangular waveguides, silicon micromachined waveguides offer a number of advantages. In this paper we present a low-loss silicon micromachined waveguide technology based on a double H-plane split for the frequency bands of 110 – 170 GHz and 220 – 330 GHz. For the upper band a reduced height waveguide is presented, which achieves a loss per unit length of 0.02 – 0.10 dB/mm. This technology has been further adapted to implement a full height waveguide for the lower frequency band of 110 – 170 GHz. The full height waveguide takes advantage of the benefits of the double H-plane split technique to overcome the challenges of fabricating micromachined waveguides at lower frequencies. With measured insertion loss of 0.007 – 0.013 dB/mm, averaging 0.009 dB/mm over the whole band, this technology offers the lowest insertion loss of any D-band waveguide to date. The unloaded Q factor of the D-band waveguide technology is estimated to be in excess of 1600, while a value of 750 has been measured for the reduced height upper band waveguide.

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利用多个h面分裂的100 GHz以上低损耗硅微机械波导

对于亚毫米波和毫米波应用，矩形波导是一种理想的传输介质。与传统的金属铣削矩形波导相比，硅微机械波导具有许多优点。本文提出了一种基于双h面分裂的低损耗硅微机械波导技术，适用于110 ~ 170 GHz和220 ~ 330 GHz频段。对于上波段，提出了一种降低高度的波导，其单位长度的损耗为0.02 - 0.10 dB/mm。该技术已进一步适用于实现110 - 170 GHz较低频段的全高波导。全高度波导利用双h面分裂技术的优势，克服了在较低频率下制造微机械波导的挑战。该技术测量的插入损耗为0.007 - 0.013 dB/mm，整个频段平均为0.009 dB/mm，是迄今为止所有d波段波导中插入损耗最低的。d波段波导技术的卸载Q因子估计超过1600，而降低高度的上波段波导的测量值为750。

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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2018 48th European Microwave Conference (EuMC)

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