Research on Position Controller of CNC Machine
The position control arithmetic is crucial to the rapidity, stability and accuracy of CNC system. After analyzing the shortcoming that the conventional PID position controller only is difficult to eliminate system steady-state error, the feedforward control in position controller is researched in detail. If the speed feedforward coefficient and acceleration feedforward coefficient can be computed exactly, the feedforward control approach can remarkably minish steady-state tracking error, enhance servocontrol precision and not change the primary servosystem stability. A nonlinear PID position controller model is developed subsequently to overcome the shortcoming of conventional linear PID position controller which is difficult to obtain rapid response and satisfied overshoot at the same time in the paper, where the expression of proportional control quantity Up, the integral control quantity Ui and the differential control quantity Ud is adjusted automatically along with the tracking error variation. The control simulation shows that the developed nonlinear PID position controller can reduce the overshoot to zero, get rapid response and enhance the tracking performance of the CNC system in the meantime. The conclusion is significant to high speed and high accuracy CNC machining.
Position controUer feedforward control Nonlinear PID rapid response
Guoyong Zhao Yugang Zhao Haiyun Zhang Zhongwen Sima Lili Zhang
Department of mechanical Engineering Shandong University of Technology Zibo,Shandong Province,China School of Light Industry & Agriculture Engineering Shandong University of Technology Zibo,Shandong P
国际会议
长沙
英文
1859-1862
2009-10-10(万方平台首次上网日期,不代表论文的发表时间)