Equivalent and identification of integrated coupling parameter of variable speed constant frequency brushless doubly fed generator

Brushless doubly fed generator (BDFG) generally adopts double closed-loop vector control strategies. Owing to the influence of BDFG coupling parameters, the accuracy of feedforward decoupling parameters is very important; however, the complexity of the BDFG model makes its winding parameters difficult to identify. On the basis of the characteristics of the BDFG system control model and the decoupling control conditions, this study proposes a method for identifying the integrated coupling parameter. This method first uses particle swarm optimization to identify the coefficients of the current closed-loop transfer function. Then, the values of the integrated coupling parameters are calculated on the basis of the relationship between the coefficients of the current closed-loop transfer function and the integrated coupling parameters of the BDFG. This method bypasses the challenge of directly identifying BDFG winding parameters and can be used directly to design the controller. Experiments are performed using a 30 kW BDFG platform to prove the feasibility and effectiveness of the proposed method.

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Cite this article

[IEEE Style]

Y. Wang, J. Su, J. Lai, B. Xie, Y. Shi, H. Yu, "Equivalent and identification of integrated coupling parameter of variable speed constant frequency brushless doubly fed generator," Journal of Power Electronics, vol. 22, no. 1, pp. 61-71, 2022. DOI: 10.1007/s43236-021-00346-1.

[ACM Style]

Yiding Wang, Jianhui Su, Jidong Lai, Bao Xie, Yong Shi, and Hongru Yu. 2022. Equivalent and identification of integrated coupling parameter of variable speed constant frequency brushless doubly fed generator. Journal of Power Electronics, 22, 1, (2022), 61-71. DOI: 10.1007/s43236-021-00346-1.