Traditional MEMS actuators have limited stroke and force characteristics. This paper describes the development of a novel hybrid actuation solution, which utilizes a micro-machined actuator array to provide switching of mechanical motion of a larger meso-scale piezo-electric actuator. One motivating application of this technology is the development of a tactile display, where discrete mechanical actuators apply vibratory excitation at discrete locations on the skin. Specifically, this paper describes the development fabrication and characterization of a 4 x 5 micro-actuator array of individual vibrating pixels for fingertip tactile communication. The individual pixels are turned ON and OFF by pairs of microscopic thermal actuators, while the main vibration is generated by a vibrating piezo-electric plate. A thermo-electric and non-linear thermo-elastic models have been developed to account for the temperature dependence of the electrical resistance and the lateral buckling of the hot, respectively. Comparison between analytical and finite element models indicated very good agreement, confirming that the buckling of the hot arm has most significant impact in the overall actuator performance. The fabrication sequence and the actuation performance of the array are also presented.
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机译:传统的MEMS执行器具有有限的行程和力特性。本文介绍了新型混合驱动解决方案的开发,该解决方案利用微机械驱动器阵列来提供较大介观压电驱动器的机械运动切换。这项技术的一项激动人心的应用是开发一种触觉显示器,其中分立的机械执行器在皮肤上的分立位置施加振动激励。具体来说,本文描述了用于指尖触觉通信的单个振动像素的4 x 5微驱动器阵列的开发制造和特性。各个像素通过成对的微观热致动器打开和关闭,而主振动则由振动的压电板产生。已经开发出热电和非线性热弹性模型来分别考虑电阻的温度依赖性和热的横向屈曲。解析模型与有限元模型之间的比较显示出很好的一致性,证实了热臂的弯曲对执行机构的整体性能影响最大。还介绍了阵列的制造顺序和驱动性能。
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