基于模糊自适应控制器的感应电机无传感器矢量控制的设计与实现

2017 International Conference on Computing Methodologies and Communication (ICCMC) Pub Date : 2017-07-01 DOI:10.1109/ICCMC.2017.8282699

Chetan M. Rajgire, M. N. Wankhede, Sushil Karvekar

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引用次数: 1

摘要

本文提出了一种用模糊控制器进行速度控制，用模型参考自适应控制器(MRAC)进行速度估计的感应电机驱动磁场定向矢量控制的无传感器速度控制方法。基于无功功率的MRAC速度估计存在稳定性问题。为此，设计了基于磁链的MRAC控制器，利用实际定子电压和实际定子电流来估计转速。这使得无传感器驱动稳定在所有四个象限的操作。采用模糊控制器代替传统的PI控制器，提高了异步电动机的性能。利用MATLAB/SIMULINK对所提出的模型进行了仿真。从分析中可以看出，所提出的系统比传统控制器给出了更好的响应，并且不需要额外的传感器，使得驱动器适合高性能应用。仿真结果证明了该系统的有效性。

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Design and implementation of sensorless vector control of induction motor drive using fuzzy-adaptive controller

This paper proposes a method for sensorless speed control of a field oriented vector control of Induction motor drive using a fuzzy controller for speed control and model reference adaptive controller (MRAC) for speed estimation. Speed estimation using reactive power based MRAC has stability problems. To overcome this, flux based MRAC controller is designed which uses actual stator voltages and actual stator current for estimating the speed. This makes sensorless drive stable in all the four quadrants of operation. Conventional PI controller is replaced by the Fuzzy controller to improve the performance of induction motor. The simulation of proposed model is done using MATLAB/SIMULINK. From the analysis, it can be observed that the proposed system gives a better response than conventional controllers and requirement of no additional sensors make the drive suitable for high-performance applications. The simulation results prove the effectiveness of the proposed system.

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2017 International Conference on Computing Methodologies and Communication (ICCMC)

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