压电陶瓷执行器已广泛应用于工业生产及科学研究中。
Piezoelectric actuators are widely used in industrial and academia applications.
压电陶瓷执行器的迟滞特性是影响其定位精度的主要因素。
The hysteresis of piezoceramic actuators is the main challenge of its positioning accuracy.
通过实验研究了压电陶瓷执行器在不同情况下的迟滞非线性。
The hysteresis nonlinearity of piezoceramic actuators under different conditions has been studied.
研究压电陶瓷执行器应用于纳米定位系统时,其多值映射的迟滞特性对系统定位控制精度影响。
The multi-valued-mapping hysteresis nonlinearity of the piezoceramic actuator seriously degrades the scale accuracy when used in the nanometer positioning system.
将该网络应用于纳米定位系统压电陶瓷执行器迟滞建模中,可以降低建模误差,实验结果验证了该方法的有效性。
The network can reduce the modeling error for the piezoelectric actuator of a nanometer positioning system. Experimental results proved validity of the algorithm.
本文采用压电陶瓷作为传感器和执行器,对二维柔性板的振动抑制进行了实验研究。
In this paper an active vibration control system of 2d flexible plate is presented by using piezoelectric sensors and actuators.
针对压电陶瓷微位移执行器动态响应速度慢的问题进行了研究,提出用数字PID方法加以解决,并研制出一套实用控制系统。
The problem of slow step response in electrostrictive actuator is studied and a digital PID method is proposed to compensate the slow step response.
针对压电陶瓷微位移执行器动态响应速度慢的问题进行了研究,提出用数字PID方法加以解决,并研制出一套实用控制系统。
The problem of slow step response in electrostrictive actuator is studied and a digital PID method is proposed to compensate the slow step response.
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