微坐标测量探头的动态性能

2006 1st IEEE International Conference on Nano/Micro Engineered and Molecular Systems Pub Date : 2006-01-01 DOI:10.1109/NEMS.2006.334609

P. Shih, W. Shih, Tzung-Han Lin, Han-Pang Huang

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引用次数: 0

摘要

提出了一种三维微探头，可以测量各方向作用在探针上的力。微探头由不锈钢制成，并由两组压电换能器覆盖。其中一个传感器驱动探针，另一个传感器感知动态响应以识别引脚与障碍物之间的接触。建立了一个理论模型来研究微探针在接触和非接触状态之间的转变。据此，建立了分岔图，为驱动频率的优化提供了设计参考。对整个设计进行了有限元仿真。实际上，所制备的微探针可用于高纵横比微结构的坐标测量

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Dynamic Performance of Micro Coordinate Measurement Probe

A three-dimensional microprobe, which is capable of measuring the forces exerting on the probing pin in all directions, is presented. The microprobe is fabricated on stainless steel and is covered by two sets of piezoelectric transducers. One of the transducers drives the probe, and the other senses the dynamic response to identify the contact between the pin and obstacles. A theoretical model is carried out to investigate the transition of the microprobe between contact and non-contact states. Accordingly, a bifurcation diagram is established to provide a design reference for the optimization of driving frequency. A finite element simulation is also carried out for the complete design optimization. Indeed, the fabricated microprobe can be used for the coordinate measurement of the high-aspect-ratio micro-structures

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2006 1st IEEE International Conference on Nano/Micro Engineered and Molecular Systems

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