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非共振式压电直线电机精密驱动及定位控制
引用本文:曹小涛,李德全,李洪文,林冠宇,杨维帆. 非共振式压电直线电机精密驱动及定位控制[J]. 光学精密工程, 2017, 25(8): 2139-2148. DOI: 10.3788/OPE.20172508.2139
作者姓名:曹小涛  李德全  李洪文  林冠宇  杨维帆
作者单位:中国科学院 长春光学精密机械与物理研究所, 吉林 长春 130033
基金项目:国家自然基金重大科研仪器研制项目
摘    要:为实现光机结构、集成电路等领域中大行程及高精度的位移控制,利用较为适用的非共振式尺蠖型压电直线电机,基于高压功率运算放大器,设计了非共振式压电直线电机的精密复合放大驱动电路,通过理论分析及实验得到的伯德图验证了驱动电路的分辨率和幅频特性。以现场可编程门阵列(FPGA)为核心处理器,以光栅尺为反馈元件,通过分析非共振式压电直线电机的多种运行模式,根据直线电机的运行时序,设计完成了开环大范围整步运行模式与闭环小范围单步运行模式相结合的控制策略,在单步运行模式中分别设计完成了PID控制算法及PID与压电陶瓷迟滞逆模型前馈相结合的复合控制算法。实验结果表明,该控制策略能够实现大行程内的精密位移控制,复合控制算法具有比PID更加优越的控制效果,能够在21mm大行程内实现1.5nm的闭环定位控制精度,直线电机的最大驱动力可达300N,满足大行程高精度位移控制的应用需求。

关 键 词:非共振式压电陶瓷  迟滞逆模型  大行程高精度定位控制  FPGA  复合控制模型
收稿时间:2017-01-21

Precision drive and position control of non-resonance piezoelectric stack linear motor
CAO Xiao-tao,LI De-quan,LI Hong-wen,LIN Guan-yu,YANG Wei-fan. Precision drive and position control of non-resonance piezoelectric stack linear motor[J]. Optics and Precision Engineering, 2017, 25(8): 2139-2148. DOI: 10.3788/OPE.20172508.2139
Authors:CAO Xiao-tao  LI De-quan  LI Hong-wen  LIN Guan-yu  YANG Wei-fan
Affiliation:Changchun Institute of Optics, Fine Mechanics and Physics, Chinese Academy of Sciences, Changchun 130033, China
Abstract:In order to realize long stroke and high precision displacement control in scopes such as optical-mechanical structure, integrated circuit and so on, a precision hybrid amplification driving circuit was designed by using non-resonance piezoelectric inchworm stack linear motor based on the high voltage power operational amplifier.Resolution and amplitude-frequency characteristic of driving circuit were verified by Bode diagram gotten by theoretical analysis and experiment.Taking FPGA as core processor and grating ruler as feedback element, through analyzing various operation modes of non-resonant piezoelectric linear motor, according to the operation sequence of linear motor, a control strategy combining the open loop large range whole step mode with closed-loop and small-range single step operation mode was designed and finished.Two types of control algorithms of PID and compound control of combination between PID and feed forward of hysteresis inverse model of piezoelectric ceramic were designed respectively in single step operation mode.Experimental results indicate that the control strategy can realize precise displacement control.Compound control algorithm has more superior control effect than PID.Moreover, its closed-loop position control precision can reach 1.5 nm in large stroke of 21 mm.Linear motor can realize maximum driving force of 300N and satisfies application demands of high-precision displacement control in large stroke.
Keywords:non-resonance piezoelectric ceramic  hysteresis inverter model  long stroke and high precision displacement control  FPGA  compound control algorithm
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