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Modeling and Optimal Control of a Hybrid Excitation Synchronous Machine by Combining Analytical and Finite Element Models

机译：分析和有限元模型结合混合励磁同步机的建模与最优控制

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Modeling of hybrid excitation synchronous machines is a crucial step for the determination of control laws. The combination of analytical and numerical models is very useful for high model reliability without being penalized on the computation time. With this method, a field-weakening control strategy is used in this paper. The excitation flux is controled beyond the base speed through torque angle and excitation current while maximizing total efficiency of the machine.

机译：混合励磁同步机的建模是确定对照法律的关键步骤。分析和数值模型的组合对于高模型可靠性非常有用，而不会在计算时间上处于惩罚。利用这种方法，本文使用了弱化控制策略。通过扭矩角和激励电流控制励磁通量超过基准速度，同时最大化机器的总效率。

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《International Conference on Electrical Machines》|2012年||共6页
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作者
A. DAANOUNE; A. FOGGIA; L. GARBUIO; J.C MIPO; L. Li;
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原文格式 PDF
正文语种
中图分类 TM3-53;
关键词
Optimal Control; Hybrid Excitation Synchronous Machine; Combining Analytical;

机译：最优控制;混合励磁同步机;分析组合;

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4. Modeling and optimal control of a hybrid excitation synchronous machine by combining analytical and finite element models [C] . Daanoune A., Foggia A., Garbuio L., 2012 20th International Conference on Electrical Machines. . 2012

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Modeling and Optimal Control of a Hybrid Excitation Synchronous Machine by Combining Analytical and Finite Element Models

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