无传感器直流驱动器的扰动转矩估计

Proceedings of IECON '93 - 19th Annual Conference of IEEE Industrial Electronics Pub Date : 1993-11-15 DOI:10.1109/IECON.1993.339142

G. Buja, R. Menis, M. Valla

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引用次数: 103

摘要

通过对经典观测器理论的扩展，对无传感器直流驱动器的扰动力矩进行了估计。根据扰动力矩的表示和观测器状态的处理，提出了三种估计方案。除了扰动转矩外，所有方案都提供了电机转速的估计。在标称条件下，分析了方案的稳态精度和动力学特性，确定了性能最佳的方案。分析了电机参数变化的影响，发现适当的电机建模可以使扰动转矩的稳态估计对任何变化都不敏感。作为测试，将该方案应用于无传感器直流驱动器，既补偿了扰动转矩，又关闭了速度环。报告了最佳性能方案所获得的响应

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Disturbance torque estimation in a sensorless DC drive

The estimation of the disturbance torque in a sensorless DC drive is carried out by extending the classical observer theory. Three estimation schemes are formulated according to the representation of the disturbance torque and processing of the observer states. In addition to the disturbance torque, all the schemes deliver an estimation of the motor speed. Steady-state accuracy and dynamics of the schemes are analyzed in nominal conditions, identifying the scheme with the best performance. The effects of variations in the motor parameters are also analyzed, finding that a proper modeling of the motor makes the steady-state estimation of the disturbance torque insensitive to any variation. As a test, the schemes are applied to a sensorless DC drive for both compensating for the disturbance torque and closing the speed loop. The responses obtained with the best-performance scheme are reported.<>

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Proceedings of IECON '93 - 19th Annual Conference of IEEE Industrial Electronics

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