Sensitivity Enhancement of MEMS Tactile Sensor by Redesign of Microcantilever and Strain Gauge

2021 IEEE Sensors Pub Date : 2021-10-31 DOI:10.1109/SENSORS47087.2021.9639799
Ren Kaneta, Takumi Hasegawa, Takashi Abe, Masayuki Sohgawa
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Abstract

In our previous work, MEMS tactile sensor using microcantilevers embedded in the elastomer has been developed. The gripping control of a soft object and the data acquisition which reflected the texture of the object surface have been carried out using this sensor. However, improvement of its sensitivity for more precise control or texture information is an important issue. In this work, cantilever size and strain-gauge arrangement in the sensor are newly designed for sensitivity improvement. As a result of fabrication based on the new design, it is demonstrated that a drastic sensitivity improvement is achieved. Furthermore, it is found that the sensitivity depends on the size of the cantilever.
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微悬臂梁和应变片的再设计提高MEMS触觉传感器的灵敏度
在我们之前的工作中,已经开发了使用嵌入弹性体的微悬臂梁的MEMS触觉传感器。利用该传感器实现了对软物体的抓握控制和反映物体表面纹理的数据采集。然而,提高其灵敏度以获得更精确的控制或纹理信息是一个重要的问题。为了提高传感器的灵敏度,本文对传感器的悬臂梁尺寸和应变片布置进行了新的设计。基于新设计的制造结果表明,灵敏度得到了极大的提高。此外,还发现灵敏度与悬臂梁的尺寸有关。
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2021 IEEE Sensors
2021 IEEE Sensors
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