基于模糊逻辑的风能转换系统感应发电机间接矢量控制

Y. S. Rao, A. Laxmi
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引用次数: 9

摘要

为了满足日益增长的电力需求,考虑到经济和环境因素,风能转换作为一种合适的可再生能源正逐渐引起人们的兴趣。利用MATLAB-SIMULINK对风能转换系统(WECS)进行建模。在simulink中采用模块化的方法,从基本原理出发,建立了感应发电机的动态d-q模型。针对异步发电机的间接矢量控制,设计了一种模糊控制器。异步电动机和同步电动机的矢量控制或磁场定向控制带来了交流驱动器高性能控制的复兴。在矢量控制中,感应电机可以像单独励磁的直流电动机一样被控制。在单独励磁的直流电机中,由于励磁电流的解耦,当励磁电流If被控制时,只影响励磁磁通而不影响电枢磁通。从而在直流驱动器中提供快速的瞬态响应。由于固有的耦合问题,感应电机无法给出如此快速的响应。如果在同步旋转参考系(de-qe)中考虑电机控制,则直流电机的类似性能也可以扩展到感应电机,其中正弦变量在稳定状态下表现为直流量。速度控制回路使用模糊逻辑控制器产生控制电机磁链的直接轴电流参考Id*。电机转矩由正交轴电流基准Id*控制。仿真结果验证了所提模糊控制器的正确性和有效性。
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Fuzzy logic based indirect vector control of induction generator in Wind Energy Conversion System
In order to meet increasing power demand, taking into account economical and environmental factors, wind energy conversion is gradually gaining interest as a suitable source of renewable energy. The modeling of Wind Energy Conversion System(WECS) is done in MATLAB-SIMULINK. The dynamic d-q model of the induction generator is developed from the fundamentals in a modular approach in simulink. A fuzzy logic controller is designed for indirect vector control of induction generator. The vector control or field oriented control of induction motor and synchronous motors brought a renaissance in the high performance control of ac drives. In the vector control, the induction motor can be controlled like a separately excited dc motor. In a separately excited dc motor, because of decoupling, when the field current If is controlled, it affects the field flux only but not the armature flux. Thus giving fast transient response in the dc drive. Because of the inherent coupling problem, an induction motor cannot give such a fast response. The dc machine like performance can also be extended to induction motor if the machine control is considered in the synchronously rotating reference frame (de-qe), where the sinusoidal variables appear as dc quantities in steady state. The speed control loop uses a fuzzy logic controller to produce a direct axis current reference Id* which controls the motor flux. The motor torque is controlled by quadrature axis current reference Id*. The correctness and effectiveness of the proposed fuzzy logic controller are verified by the simulation results.
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