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Miniaturized surface-driven electrostatic actuators: design and performance evaluation

Robert X. Gao, Ji Fang, Balkrishna C. Rao, R. O. Warrington

Year
1997
Citations
8

Abstract

A series of miniaturized, surface-driven rotary and linear electrostatic actuators was designed and fabricated. The finite element analysis method was used to aid in the design and analysis of the electrostatic drive mechanism. The actuators, consisting mainly of a copper-coated 200 /spl mu/m-thick glass epoxy stator board and a 34 /spl mu/m-thick carbon-coated polyethylene-terephthalate (PET) film slider, were fabricated using modified printed circuit board techniques. These actuators, able to carry mechanical loads up to 375 times their own weight, can be used as micro conveyers or robots in an automated micromachine assembly environment for a wide range of applications.

Keywords

ActuatorMaterials scienceSliderStatorFinite element methodPrinted circuit boardMechanical engineeringPolyethylene terephthalateComposite materialElectrical engineering

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