Application of a novel battery charger system to new developed piezoelectric actuator for high speed micropositioning motion

Yi-Cheng Huang, Wen-Yung Liang, Chao Lu, Chih-Wen Hsieh
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引用次数: 4

Abstract

This paper presents the implementation of developed stacked piezoelectric actuators (PZT) via a novel developed direct current digital battery charger device (DBCD). Battery charger system is developed for powering PZT and utilized for micro precision motion actuation. This power system without conventional transformer is constructed without the use of conventional coil and the use of high-frequency switching power design. Emphasis placed here is on controlling and data acquisitioning the characteristics of PZT via the developed technique of high speed, voltage-feedback-loop power amplifier. Voltage is digitally controlled to PZT in real time compensation by circuit design. Because precise displacement of PZT is useful in micro positioning under the consideration of external load, the motion of PZT is controlled by supplied voltage in parallel with an additional capacitance in this study. The developed integrated PZT system is illustrated to be very attractive and practical for future advanced piezoelectric motion control technique.
新型电池充电系统在新型压电驱动器高速微定位运动中的应用
本文介绍了一种新型直流数字电池充电装置(DBCD)实现堆叠式压电驱动器(PZT)的方法。为实现压电陶瓷的微精密运动驱动,研制了充电系统。本电力系统不使用常规变压器,不使用常规线圈,采用高频开关电源设计。重点介绍了利用高速电压反馈回路功率放大器技术对压电陶瓷的特性进行控制和数据采集。通过电路设计将电压数字控制到PZT进行实时补偿。由于PZT的精确位移有助于在考虑外部负载的情况下进行微定位,因此在本研究中,PZT的运动由供电电压和附加电容并联控制。所开发的集成压电陶瓷系统对未来先进的压电运动控制技术具有很大的吸引力和实用性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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