悬挂式静电微夹持器

TRANSDUCERS '91: 1991 International Conference on Solid-State Sensors and Actuators. Digest of Technical Papers Pub Date : 1991-06-24 DOI:10.1109/SENSOR.1991.148952

C. Kim, A. Pisano, R. Muller

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引用次数: 21

摘要

采用表面微加工和本体微加工相结合的方法，设计和制造了一种适合安装在微定位器上的单片微夹持器。该装置由一个硅模具(7* 5mm)，一个由p/sup +/-衬底材料制成的1.5 mm长的支撑悬臂和一个400 μ m长的多晶硅微夹持器连接在支撑悬臂的末端。微夹持器是由灵活的，交叉梳对静电驱动的。微夹持器的特征尺寸明显小于先前报道的表面和块状微加工结构。在微夹持器制造中成功解决的问题包括在蚀刻和冲洗过程中对表面微加工精细结构的保护。在EPW中蚀刻过程中，将多晶硅结构嵌入到PSG(磷硅酸盐玻璃)薄膜中，在PSG膜上引入断裂线，以及在最后的PSG蚀刻过程中部分阻断液体流动，并在去离子水中冲洗，这些都是成功制造序列的关键。

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Overhung electrostatic microgripper

A monolithic microgripper unit suitable for mounting on a micropositioner has been designed and fabricated by a combination of surface and bulk micromachining. The unit consists of a silicon die (7*5 mm), a 1.5-mm-long support cantilever made from p/sup +/-substrate material and protruding from the die, and a 400- mu m-long polysilicon microgripper attached at the end of the support cantilever. The microgripper is electrostatically driven by flexible, interdigitated comb pairs. The microgripper has significantly smaller feature sizes than previously reported surface- and bulk-micromachined structures. Problems addressed successfully in the microgripper fabrication include the protection of surface-micromachined fine structures during etching and rinsing. Embedding the polysilicon structures in PSG (phosphosilicate glass) film during etching in EPW, introducing break lines to the PSG membrane, and partial blocking of liquid flow during final PSG etching and rinsing in DI water have been the keys to a successful fabrication sequence.<>

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TRANSDUCERS '91: 1991 International Conference on Solid-State Sensors and Actuators. Digest of Technical Papers

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