Three dimensional single crystalline force sensor by porous Si micromachining

M. Adam, E. Vasonyi, I. Bársony, G. Vásárhelyi, C. Ducso
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引用次数: 13

Abstract

A porous Si micromachining technique was used for the formation of single crystalline force sensor elements, capable of resolving the three vectorial components of the load. Similar structures presented so far, are formed from deposited polycrystalline Si resistors embedded in multilayered SiO/sub 2//Si/sub 3/N/sub 4/ membranes, using a surface micromachining technique for cavity formation. In the present work, in the n-type perforated membrane, four implanted piezoresistors were fabricated with their reference pairs on the substrate, in order to form 4 half-bridges for the transduction of the mechanical stress. The HF based porous Si process was successfully combined with conventional doping and Al metallization, thereby offering a possible integration of read-out and amplifying electronics. The 300/spl times/300 /spl mu/m/sup 2/ membrane size allows the formation of large area arrays for tactile sensing using single crystalline sensing elements of superior mechanical properties.
多孔硅微加工三维单晶力传感器
采用多孔硅微加工技术制备了单晶力传感器元件,能够分辨载荷的三个矢量分量。到目前为止,类似的结构是由沉积的多晶硅电阻嵌入多层SiO/sub 2//Si/sub 3/N/sub 4/膜中,使用表面微加工技术形成腔体。在n型多孔膜中,在衬底上植入4个压敏电阻及其参考对,以形成4个半桥来传递机械应力。基于HF的多孔Si工艺成功地与传统掺杂和Al金属化相结合,从而提供了读出和放大电子器件的可能集成。300/spl倍/300 /spl μ /m/sup / 2/膜尺寸允许使用具有优异机械性能的单晶传感元件形成大面积的触觉传感阵列。
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