Position Control of Shape Memory Alloy Actuator Using Hysteresis Model

Kazuyuki KODAMA; Tadahiro HASEGAWA; Sumiko MAJIMA

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Position Control of Shape Memory Alloy Actuator Using Hysteresis Model

机译：基于滞后模型的形状记忆合金作动器的位置控制

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The tracking control accuracy of shape memory alloy (SMA) actuator is limited due to inherent hysteresis nonlinearity. It has been said that a push-pull type mechanism and the insertion of a resistance feedback loop are useful to effects of the hysteresis. This paper presents a position control system for compensating the hysteresis without such constraints. It is composed of feedforward loop and PID feedback loop. In the feedforward loop, the desired input corresponding to the desired displacement is obtained from a model of hysteresis. The proposed control system is applied to a bias spring type SMA actuator that is more difficult to be controlled accurately than a push-pull type one. Experimental results show that tracking control performance is greatly improved.

机译：由于固有的磁滞非线性，形状记忆合金（SMA）致动器的跟踪控制精度受到限制。据说，推挽式机构和电阻反馈回路的插入对于磁滞的作用是有用的。本文提出了一种位置补偿系统，用于补偿没有这种约束的磁滞。它由前馈回路和PID反馈回路组成。在前馈回路中，从磁滞模型中获得与所需位移相对应的所需输入。所提出的控制系统应用于偏置弹簧型SMA致动器，该偏置致动器比推拉型SMA致动器更难以精确控制。实验结果表明，跟踪控制性能大大提高。

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来源
《日本機械学会論文集. C編》 |1999年第640期|120-125|共6页
作者
Kazuyuki KODAMA; Tadahiro HASEGAWA; Sumiko MAJIMA;
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正文语种 jpn
中图分类机械学（机械设计基础理论）;
关键词
Actuator; Nonlinear Control; Positioning; Shape Memory Alloy; Hysteresis;

机译：执行器非线性控制定位;形状记忆合金磁滞现象;

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Position Control of Shape Memory Alloy Actuator Using Hysteresis Model

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