Abstract
The goal of this study is to develop a fast, controllable PZT-driven depth adjustment device with a flexure hinge. The device can be used to trace rapidly a flat or curved surface with several hundreds of micrometers’ variance in height. The lever type flexure hinge designed for a magnification ratio of 10 and no other axes motion has been confirmed through FEM analysis; the actual performance has been verified through static/dynamic experiments. A micro-depth control system, which is comprised of a DAQ with a LabVIEW, PZT amplifier, PZT actuator, flexure hinge, and laser displacement sensor, is implemented, and its static/dynamic characteristics of depth control is investigated with a PID gain tuned control algorithm on LabVIEW. It has been verified that the developed device can trace a micro-depth command as fast as 0.5 s to get an accurate position of 0.1 μm, even under a load of 1 N.
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