2020
DOI: 10.1007/s00542-020-05092-1
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Implementation and experiment of a novel piezoelectric-spring stage for rapid high-precision micromotion

Abstract: A precision micromotion stage is significant in the microelectronics-manufacturing field to realize high-performance tasks. The output position error and limited frequency response influence the working performance and efficiency of the micromotion stage. A novel piezoelectric-based (PZT) reciprocating micromotion stage with a special spring-PZT structure is proposed in this paper to cater to the high manufacturing demands and achieve rapid precision micromotion performance. This structure is designed to use a… Show more

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“…However, these types of platforms have a relatively complicated structure, limited scaling options and are sensitive to the external electric and magnetic fields. In addition, platforms based on electrostatic and electromagnetic actuators have limited resolution of motion as well as operation range [7][8][9]. Piezoelectric locomotion platforms can overcome these disadvantages and fulfill requirements of nanoscale resolution, scalable design, and fast response time.…”
Section: Introductionmentioning
confidence: 99%
“…However, these types of platforms have a relatively complicated structure, limited scaling options and are sensitive to the external electric and magnetic fields. In addition, platforms based on electrostatic and electromagnetic actuators have limited resolution of motion as well as operation range [7][8][9]. Piezoelectric locomotion platforms can overcome these disadvantages and fulfill requirements of nanoscale resolution, scalable design, and fast response time.…”
Section: Introductionmentioning
confidence: 99%