Design and experiment of a large displacement linear piezoelectric actuator

IF 1.1 4区 工程技术 Q4 ENGINEERING, ELECTRICAL & ELECTRONIC International Journal of Applied Electromagnetics and Mechanics Pub Date : 2023-03-27 DOI:10.3233/jae-220232
Yujian Tong, Chong Li, Jiwen Fang, J. Xing, Xiaorui Fu
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引用次数: 0

Abstract

To increase the output displacement of the linear piezoelectric actuator, a linear piezoelectric actuator with large displacement and three operation modes is proposed. The operating principle of the piezoelectric actuator is presented. The magnification factor of the displacement amplification mechanism is deduced and verified by finite element analysis. To improve the output precision of the actuator, a feedforward PID control model is established. Based on the experimental test platform, the output characteristics of the piezoelectric actuator are tested. Results show the maximum output displacement of the piezoelectric actuator is 558.3 μm under a driving voltage of 150 V with two piezoelectric stacks. When the driving frequencies are less than 3 Hz, the control accuracy of feedforward PID is higher than that of PID, and the error between the measured displacement and the ideal value is less than 10% after applying the control to the piezoelectric actuator.
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大位移线性压电驱动器的设计与实验
为了提高线性压电驱动器的输出位移,提出了一种具有大位移和三种工作模式的线性压电驱动器。介绍了压电驱动器的工作原理。推导了位移放大机构的放大系数,并通过有限元分析进行了验证。为了提高作动器的输出精度,建立了前馈PID控制模型。基于实验测试平台,对压电驱动器的输出特性进行了测试。结果表明,当驱动电压为150 V时,该压电致动器的最大输出位移为558.3 μm。当驱动频率小于3 Hz时,前馈PID的控制精度高于PID,对压电作动器施加控制后,测量位移与理想值的误差小于10%。
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来源期刊
CiteScore
1.70
自引率
0.00%
发文量
100
审稿时长
4.6 months
期刊介绍: The aim of the International Journal of Applied Electromagnetics and Mechanics is to contribute to intersciences coupling applied electromagnetics, mechanics and materials. The journal also intends to stimulate the further development of current technology in industry. The main subjects covered by the journal are: Physics and mechanics of electromagnetic materials and devices Computational electromagnetics in materials and devices Applications of electromagnetic fields and materials The three interrelated key subjects – electromagnetics, mechanics and materials - include the following aspects: electromagnetic NDE, electromagnetic machines and devices, electromagnetic materials and structures, electromagnetic fluids, magnetoelastic effects and magnetosolid mechanics, magnetic levitations, electromagnetic propulsion, bioelectromagnetics, and inverse problems in electromagnetics. The editorial policy is to combine information and experience from both the latest high technology fields and as well as the well-established technologies within applied electromagnetics.
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