Transient Modeling of Induction Motors considering Space Harmonics and Saturation Effects

L. Di Leonardo, Mircea Popescu, M. Tursini
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引用次数: 2

Abstract

This paper presents a transient mathematical model for induction motors based on space harmonics and saturation effects. The model is based on the calculation of the phase-linked magnetic flux accounting for the geometry and physical dimensions of the stator and rotor windings, other than the magnetic steel saturation characteristic. The space-harmonic components of the magnetic induction are calculated at each time-step considering the currents in the stator windings and in the rotor bars as well as the rotor position. The electromagnetic torque is computed as well. The model is validated by comparison with a co-simulation approach that uses finite element calculus in transient mode. Method accuracy and effects of simplifications are investigated both in static and transient behavior. The case study and the presented results refer to a prototypal induction motor for high power electric vehicles.
考虑空间谐波和饱和效应的感应电机暂态建模
提出了一种基于空间谐波和饱和效应的异步电动机暂态数学模型。该模型基于考虑定子和转子绕组几何尺寸和物理尺寸的相联磁通计算,而不考虑磁钢饱和特性。考虑定子绕组和转子棒内电流以及转子位置,计算了每个时间步长的磁感应空间谐波分量。并计算了电磁转矩。通过与瞬态模式有限元联合仿真方法的对比验证了该模型的有效性。研究了方法的精度和简化对静态和瞬态性能的影响。案例研究和所得结果是指大功率电动汽车用感应电动机的原型。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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