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This paper discusses the design and testing of an eight-by-eight tactile capacitive array sensor for detection of sub-millimeter features and objects, where the entire sensor array is smaller than normal human spatial resolution of 1 mm. Each square taction is less than 100 /spl mu/m on a side, with similar spacing between elements. The structural material was doped polysilicon with an air gap dielectric of 0.5 /spl mu/m. A thin (50-80 /spl mu/m) protective layer of silicone rubber was adhered to the polysilicon surface of the sensor to provide interpolation of normal loads between elements. The sensors were tested and possessed good spatial uniformity, the capability of detecting millinewton forces, and good interpolation between elements. The sensors had severe hysteresis problems, but no detectable proximity effects.
Gray et al. (Mon,) studied this question.