A New Motion Control Approach for Jerk and Transient Vibration Suppression

2006 4th IEEE International Conference on Industrial Informatics Pub Date : 2006-08-01 DOI:10.1109/INDIN.2006.275642

H. Li, Z. Gong, W. Lin, T. Lippa

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引用次数: 10

Abstract

In precision motion stages, jerk limitation is important to suppress transient vibration and to reduce the settling time, as well as to improve the machine speed and accuracy. In this paper, a novel motion control method is presented which aims to reduce jerk and transient vibration for linear motion stages. In this approach, the acceleration profile is designed based on a level-shifted cosinoidal function to obtain a smoother movement without any corner. The velocity and the displacement profiles are calculated by integration. To implement the proposed motion profile on a DSP-based motion controller, a table look-up and linear interpolation method is used to relieve the calculation burden to the DSP controller in real-time. The values between the look-up table steps are linearly interpolated using the DSP. A voice coil motor driving motion stage with a fixed-point DSP controller is used as the testbed, where a point-to-point linear motion task is designed and implemented to test the proposed motion profile. Experimental results have showed that by using the new profile, the motion induced vibration on the stage frame can be greatly reduced.

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一种新的运动控制方法，用于瞬态振动的抑制

在精密运动阶段，减振对抑制瞬态振动、缩短沉降时间、提高机床速度和精度具有重要意义。本文提出了一种新的运动控制方法，旨在减少直线运动阶段的抖动和瞬态振动。在这种方法中，加速度轮廓线是基于水平位移的余弦函数设计的，以获得更平滑的运动，没有任何角。采用积分法计算速度和位移曲线。为了在基于DSP的运动控制器上实现所提出的运动轮廓，采用了查找表和线性插值的方法，实时减轻了DSP控制器的计算负担。查找表步骤之间的值使用DSP线性插值。采用带定点DSP控制器的音圈电机驱动运动平台作为测试平台，设计并实现了点对点线性运动任务，对所提出的运动轮廓进行了测试。实验结果表明，采用新型线可以大大降低舞台框架上的运动诱发振动。

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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2006 4th IEEE International Conference on Industrial Informatics

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