多路压电聚合物触觉传感器的物体成像

IEEE 1991 International Conference on Systems Engineering Pub Date : 1900-01-01 DOI:10.1109/ICSYSE.1991.161133

E. Kolesar, R. Reston, D. G. Ford, R. Fitch

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引用次数: 3

摘要

讨论了一种将压电聚偏氟乙烯(PVDF)聚合物薄膜与单片硅集成电路(IC)耦合制成的二维电复用机器人触觉传感器。集成电路包含25个传感器电极，排列在对称的5*5矩阵中。每个电极占地600亩× 600亩。用非导电粘合剂将25 μ m厚的PVDF薄膜附着在电极阵列上。对于0.8至60克力(GMF)的负载，触觉传感器的响应基本上是线性的。响应带宽为33 Hz，迟滞水平非常小，紫杉串扰问题不明显。采用了一种预充偏置方案来稳定负载前后传感器的响应。对一个简单的触觉物体图像测量过程进行了评估，以识别圆形、矩形、环形和六边形载荷的形状。

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Object imaging with a multiplexed piezoelectric polymer tactile sensor

A two-dimensional, electrically multiplexed robotic tactile sensor fabricated by coupling a piezoelectric polyvinylidene fluoride (PVDF) polymeric film to a monolithic silicon integrated circuit (IC) is discussed. The integrated circuit incorporates 25 sensor electrodes arranged in a symmetrical 5*5 matrix. Each electrode occupies a 600- mu m by 600- mu m square area. A 25- mu m-thick PVDF film was attached to the electrode array with a nonconductive adhesive. The response of the tactile sensor is essentially linear for loads spanning 0.8 to 60 grams of force (GMF). The response bandwidth is 33 Hz, the hysteresis level is very small, and taxel crosstalk is not a significant problem. A precharge bias scheme has been implemented to stabilize the pre- and post-load sensor response. A simple tactile object image measurement process was evaluated to recognize the shapes of circular, rectangular, toroidal, and hexagonal loads.<>

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IEEE 1991 International Conference on Systems Engineering

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