一种采用固态技术的精细直线运动微致动器

Conference Record of the 1991 IEEE Industry Applications Society Annual Meeting Pub Date : 1991-09-28 DOI:10.1109/IAS.1991.178218

Sekwang Park

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引用次数: 0

摘要

介绍了一种采用固态技术制作的微致动器作为线性可控运动装置。它由PZT棒、两个硅衬垫和硅衬底组成。在13.3 kHz的三相输入脉冲功率下，它以16 μ m/秒/伏的最大速度线性向前和向后移动。衬垫和氧化层的尺寸由基材(SiO/sub 2//Si)之间的摩擦系数和所需的拉力决定。随着拉垫的力变大，垫的尺寸也随之增大。通过该装置的实验测试，确定了在真空条件下30伏夹紧力下，衬底(SiO/sub 2//Si)与衬底表面(SiO/sub 2//Si)之间的静摩擦系数为0.64。本文介绍了利用固态技术设计静电或压电电机的基本信息

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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A fine linear movement microactuator using a solid state technology

A microactuator as a linear controllable movement device fabricated by solid state technology is introduced. It is composed of a PZT bar, two silicon pads, and a silicon substrate. It moves linearly forward and backward with a maximum speed of 16 mu m/sec/volt at the three phase input pulse power of 13.3 kHz. The size of the pad and oxide layer are determined by the coefficient of friction between base material (SiO/sub 2//Si) and the required pulling force. As the force pulling the pad becomes bigger, the size of the pad increases. From the experimental test of the device the static frictional coefficient between base (SiO/sub 2//Si) and pad surface (SiO/sub 2//Si) is determined as 0.64 under vacuum at 30 volts for clamping force. Basic information is presented in order to design an electrostatic or piezoelectric motor using solid state technology.<>

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Conference Record of the 1991 IEEE Industry Applications Society Annual Meeting

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