Differential flatness based speed/torque control with state-observers of permanent magnet synchronous motor drives

2016 IEEE Industry Applications Society Annual Meeting Pub Date : 2016-10-01 DOI:10.1109/IAS.2016.7731883

P. Thounthong, S. Sikkabut, N. Poonnoy, P. Mungporn, B. Yodwong, P. Kumam, N. Bizon, B. Nahid-Mobarakeh, S. Pierfederici

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引用次数: 7

Abstract

This paper introduces a nonlinear control scheme based on the differential flatness approach for controlling the speed/torque of a permanent magnet synchronous motor (PMSM) drive. The differential flatness estimation is a model based approach. Then, two state-observers are proposed to estimate a load torque disturbance and a stator resistance (represent losses in an inverter and PMSM) by means of its voltage drop. It can help to improve the PMSM drive system and the efficiency. Using the flatness property, we propose simple solutions to dynamics and stabilization problems. The design controller parameters are autonomous of the operating point; moreover, high dynamics in disturbance rejection is achieved. To validate the proposed method, a hardware system is realized in a laboratory, and digital estimation is accomplished with a dSPACE controller DS1104 platform. Simulation and experimental results with a small-scale PMSM of 1000 W, 3000 rpm in a laboratory corroborate the excellent control scheme during a motor-drive cycles.

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基于差动平面的永磁同步电机速度/转矩状态观测器控制

本文介绍了一种基于差分平面度法的非线性控制方案，用于控制永磁同步电机(PMSM)驱动器的转速/转矩。差分平面度估计是一种基于模型的方法。然后，提出了两个状态观测器，通过电压降估计负载转矩扰动和定子电阻(表示逆变器和永磁同步电机的损耗)。对改进永磁同步电动机驱动系统，提高系统运行效率具有重要意义。利用平面性，我们提出了动力学和稳定问题的简单解决方案。设计控制器参数与工作点无关;此外，该系统在抗干扰方面具有较高的动态性。为了验证所提出的方法，在实验室中实现了硬件系统，并在dSPACE控制器DS1104平台上完成了数字估计。在1000w、3000rpm的小型永磁同步电机上的仿真和实验结果证实了该控制方案在电机驱动周期内的有效性。

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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2016 IEEE Industry Applications Society Annual Meeting

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