无传感器感应电机驱动的整体滑模直接转矩控制

2017 IEEE International Symposium on Sensorless Control for Electrical Drives (SLED) Pub Date : 2017-09-01 DOI:10.1109/SLED.2017.8078457

A. Dannier, A. Del Pizzo, L. D. di Noia, S. Meo

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引用次数: 4

摘要

研究了异步电动机驱动的全滑模直接转矩和磁链控制方法。该方案由积分滑模控制和无速度传感器滑模观测器组成。建议的积分滑模直接转矩控制(ISMDTC)是在定子磁链参考系中制定的，不使用电流调节器。所采用的滑模观测器提供定子磁链和转矩估计，不需要自适应转子转速。数值结果表明，ISMDTC保持了滑模控制器的鲁棒性，降低了滑模控制器在稳态时的抖振。此外，它可以实现与更复杂的二阶SMC类似的性能，提供更简单的实现。ISMDTC确保在低速操作以及IM驱动器的所有操作范围内对参数偏差具有良好的准确性和鲁棒性。为了证明该控制方法的有效性，还将其与传统的直接转矩控制进行了比较。

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Integral sliding-mode direct torque control of sensorless induction motor drives

The paper deals with a full sliding mode approach for induction motor drives direct torque and flux control. The proposed solution is composed by an integral sliding-mode control and by a speed-sensorless sliding mode observer. The suggested Integral Sliding-Mode Direct Torque Control (ISMDTC) is formulated in the stator flux reference frame, without employing current regulators. The adopted sliding mode observer provides stator-flux and torque estimation, without rotor-speed adaptation. The numerical results show that the ISMDTC maintains the robustness of the sliding controller, reducing the chattering during the steady state. Moreover, it consents to achieve similar performance like more complex second-order SMC offering more simple implementation. The ISMDTC assures good accuracy and robustness to parameters deviations at low-speed operations as well as in all the operative range of the IM drives. For proving the goodness of the proposal the suggested control is also compared with a conventional DTC control.

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来源期刊

2017 IEEE International Symposium on Sensorless Control for Electrical Drives (SLED)

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