在标准硅衬底上实现传输线的工艺及其在ka波段的特性

ICTACT Journal on Microelectronics Pub Date : 2020-01-01 DOI:10.21917/ijme.2020.0150

K. Singh, A. V. Nirmal

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引用次数: 0

摘要

硅衬底上的平面传输线在较高频率下具有一定的挑战性，采用晶圆探测技术进行相同的测量需要精确的表征。晶圆测量提供与器件性能相关的信息，从而有助于减少与封装和组装相关的寄生。高频率的晶圆探测对硅衬底提出了前所未有的挑战。硅衬底由于其半导体性质是一种有损耗的射频介质，标准晶圆不适合实现射频电路。本文介绍了利用厚氧化层在高电阻率硅衬底上实现平面传输线的方法。本文给出了模拟和测量结果，用该工艺制作的CPW线在ka波段的回波损耗优于12dB，损耗约为1dB。本文详细介绍了线路特性的测量技术以及ka波段的传输线特性。

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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PROCESS FOR IMPLEMENTATION OF TRANSMISSION LINE ON STANDARD SILICON SUBSTRATE AND ITS CHARACTERIZATION AT KA-BAND

Planar transmission line on silicon substrate imposes certain challenges at higher frequencies and measurement of the same employing wafer probing techniques needs accurate characterization. Wafer measurement provides information related with the device performance which in turn helps to minimize parasitic related with package and assembly. Wafer probing at higher frequencies imposes certain challenges more so ever on silicon substrate. Silicon substrate due to semiconductor in nature is a lossy medium for radio frequencies and standard wafer is not suitable for the realization of RF circuits. Present article demonstrate realization of planar transmission line on high resistivity silicon substrate by employing thick oxide layer. Both simulated and measured results are presented in this article and the CPW line fabricated with the proposed process results in ~1dB loss with better than 12dB return loss at Ka-band. Measurement techniques for the line characterization are detailed in this article along with transmission line characterization at Ka-band.

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ICTACT Journal on Microelectronics

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审稿时长

12 weeks