非线性损耗磁性器件的高精度建模

L. Mandache, K. Al-haddad
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引用次数: 5

摘要

本文提出了一种高效、完全可行的工具,可以对磁性器件进行严格的研究,并首先用于研究和设计活动。该方法使用了电路分析中最现代的工具,是作者长期经验的结果。它处理一个精确的模型,允许找到磁通量的分布,在任何时候,在核心的任何地方。在瞬态状态下,通过与所研究器件相同的微分代数方程组描述的等效电路进行建模。因此,使用专用软件(如SPICE)对该电路进行分析。这种软件具有特殊的功能,可以防止通常在非线性DAE求解中出现的收敛问题,以及对某些参数进行优化。该方法不仅可以对磁性器件进行严密的研究,而且可以对含有磁性器件的复杂设备进行高精度的分析
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High Precision Modeling of Nonlinear Lossy Magnetic Devices
The paper proposes a high efficiency and totally feasible tool that permits a rigorous study of magnetic devices, being intended firstly to the research and design activity. The method uses the most modern tools in circuit analysis, being a result of a long-time experience of authors. It deals with an accurate modeling that permits to find the distribution of magnetic fluxes everywhere in the core, at any time. The modeling is made through an equivalent electric circuit described by the same differential-algebraic equation system as the studied device in transient regime. Therefore, this circuit is analyzed using dedicated software, like SPICE. Such software has special capabilities to prevent convergence problems that usually occur in nonlinear DAE solving, as well as performing optimizations of certain parameters. The method permits not only the rigorous study of the magnetic device, but additionally a high precision analysis of complex equipments that contain magnetic devices
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