Investigation of the Mechanical Reliability of a Velostat-based Flexible Pressure Sensor

2022 IEEE International Conference on Flexible and Printable Sensors and Systems (FLEPS) Pub Date : 2022-07-10 DOI:10.1109/fleps53764.2022.9781575

Anis Fatema, Ivin Kuriakose, Deeksha Devendra, A. Hussain

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引用次数: 6

Abstract

The technological advancements in healthcare monitoring devices, automation, consumer electronics, and soft robotics have resulted in extensive research in flexible pressure, force, and tactile sensors. Piezoresistive sensors are the most widely used flexible pressure sensors due to their low-cost fabrication, high flexibility and simple data-acquisition circuits. In this paper, we report the bending response of a velostat-based flexible pressure sensor by examining its reliability when subjected to repeated mechanical stress. The observed deviation in output voltage was 0.95% for 15 mm, 0.95% for 20 mm, 0.97% for 25 mm, and 2.2% for 30 mm bending radii, for 150 bending cycles, with respect to the flat position. We present a two-parameter (a, b) calibration for the pressure sensor with a fixed bias resistance in the readout circuit. This model can be used to further minimize the deviation due to bending cycles. The results obtained from the experimental research have shown a practical possibility of implementing velostat-based sensors for both static and dynamic flexible systems.

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基于velostat的柔性压力传感器机械可靠性研究

医疗监控设备、自动化、消费电子和软机器人技术的技术进步导致了对柔性压力、力和触觉传感器的广泛研究。压阻式压力传感器具有制造成本低、灵活性高、数据采集电路简单等优点，是目前应用最广泛的柔性压力传感器。在本文中，我们报告了一种基于速度计的柔性压力传感器的弯曲响应，通过检查其在重复机械应力下的可靠性。弯曲半径为15 mm时，输出电压相对于平面位置的偏差为0.95%，为20 mm时为0.95%，为25 mm时为0.97%，为30 mm时为2.2%，弯曲周期为150次。我们提出了在读出电路中具有固定偏置电阻的压力传感器的双参数(a, b)校准。该模型可用于进一步减少弯曲循环造成的偏差。实验研究结果表明，在静态和动态柔性系统中实现基于速度计的传感器是可行的。

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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2022 IEEE International Conference on Flexible and Printable Sensors and Systems (FLEPS)

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