电容式压力传感器电极间软质材料介电介质和刚度对其性能的影响

Yogeenth Kumaresan, Oliver Ozioko, R. Dahiya
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引用次数: 9

摘要

并联板型电容式压力传感器电极间的软介质材料对其整体响应起着关键作用。然而它的影响还没有被研究过。本文用不同弹性介质层制备的电容式压力传感器来评价其性能。利用三种不同刚度的Ecoflex™和聚二甲基硅氧烷(PDMS)制造了四种电容式压力传感器,并比较了它们的传感性能。基于ecoflex的压力传感器显示出更高的灵敏度,在低压状态下(\lt 1$ kPa),比基于pdms的传感器(1.11kPa $^{-1}$)具有更高的灵敏度,适合轻触。在区域1 (1 ~ 10kPa)和区域2 (10 ~ 160kPa)的灵敏度分别为2.32kPa $^{-1}$和0.08kPa $^{-1}$,其中比例为7.5:1的PDMS灵敏度最高。结果表明,软介质层的选择对于获得具有理想灵敏度的压力或触摸传感器至关重要。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Effect of Dielectric and Stiffness of Soft Material between the Electrodes of a Capacitive Pressure Sensor on its Performance
The soft dielectric material between the electrodes of a parallel plate type capacitive pressure sensor plays a key role in their overall response. Yet its influence has not been studied. Herein, capacitive pressure sensors fabricated with different elastomeric dielectric layers have been used to evaluate the performance. Ecoflex™ and Polydimethysiloxane (PDMS) with three different stiffnesses are utilized to fabricate four capacitive pressor sensors and their sensing performance compared. The Ecoflex-based pressure sensor reveals higher sensitivity, of 4.11kPa$^{-1}$ than the PDMS-based sensors (1.11kPa $^{-1}$) at a low-pressure regime $(\lt 1$ kPa), which is suitable for light touch. With the sensitivities of 2.32kPa $^{-1}$ and 0.08kPa $^{-1}$ in the region 1 (1 to 10kPa) and region 2 (10 to 160kPa) respectively, the PDMS with 7.5:1 ratio reveals highest sensitivity among the three PDMS-based devices. The results indicate that careful selection of soft dielectric layer is important for obtaining pressure or touch sensor with desired sensitivity.
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