用实时微控制器控制永磁直流伺服电机的速度和电流

2013 10th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE) Pub Date : 2013-12-02 DOI:10.1109/ICEEE.2013.6676065

J. Hernandez-Perez, Jesus Ebert Giral-Salas, R. Morales-Caporal, R. Ordoñez-Flores, Miguel Angel Morales-Flores

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引用次数: 7

摘要

本文介绍了一种基于实时微控制器TMS320F28335的永磁直流伺服电机速度和电流调节双环反馈控制器的数字化实现。控制器的拓扑结构基于级联控制方案;转速控制器(外环)设置当前控制器(内环)的参考值。这样，就可以获得较高的伺服驱动性能。一个在线调谐比例积分控制器调节速度基准，电枢电流由一个磁滞控制器调节。为了比较单拓扑速度控制器(一个控制环)和级联拓扑速度和电流控制器(双控制环)的数字实现。通过实际实验验证了仿真结果。为此研制了电驱动装置和传感器平台。此外，还提出了一种数据采集系统。

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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Speed and current control of a permanent-magnet DC servo motor using a real-time microcontroller

This paper presents the digital implementation of a double-loop feedback controller for speed and current regulation on a permanent-magnet direct current servo motor based on the real-time microcontroller TMS320F28335. The topology of the controller is based on a cascade control scheme; the speed controller (external loop) sets the reference of the current controller (internal loop). In this way, a high performance on the servo drive can be obtained. A online tuned Proportional-Integral controller regulates the speed reference, the armature current is regulated using a hysteresis controller. In order to make comparisons a single topology speed controller (one control loop) and cascade topology speed and current controllers (double control loop) are digitally implemented. Simulation results are validated by practical experimentation. Electrical drive and sensor platform were developed for the tests. Additionally a data acquisition system is proposed.

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2013 10th International Conference on Electrical Engineering, Computing Science and Automatic Control (CCE)

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