高灵敏度、低功耗惯性MEMS-on-CMOS传感器,采用物联网时代的低温沉积聚sige薄膜

Hideyuki Tomizawa, Y. Kurui, I. Akita, Akira Fujimoto, Tomohiro Saito, A. Kojima, H. Shibata
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引用次数: 4

摘要

在本文中,我们首次基于制造器件的结果证明了SiGe在MEMS应用中的材料优势。为了实现SiGe惯性MEMS,我们开发了厚的低温聚SiGe薄膜的沉积工艺,可以精确控制薄膜应力,并制造了厚度为20 μ m的SiGe加速度计。我们澄清,与Si 1相比,SiGe加速度计具有更高的传感器灵敏度和更低的功耗,因此适合未来的超低功耗传感器。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
High-sensitivity and low-power inertial MEMS-on-CMOS sensors using low-temperature-deposited poly-SiGe film for the IoT era
In this paper, for the first time we demonstrate the material benefits of SiGe for MEMS applications based on the results of fabricated devices. To achieve SiGe inertial MEMS, we develop the deposition process for thick, low-temperature poly-SiGe film with which film stress is controlled precisely, and fabricate SiGe accelerometers having 20µm thickness. We clarify that the SiGe accelerometer shows higher sensor sensitivity and lower power consumption compared to Si one and is thus suitable for future ultra-low-power sensors.
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