Modelling and minimization of the parasitic capacitance of ring core inductors

2021 23rd European Conference on Power Electronics and Applications (EPE'21 ECCE Europe) Pub Date : 2021-09-06 DOI:10.23919/epe21ecceeurope50061.2021.9570557

Florentin Salomez, A. Videt, N. Idir

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引用次数: 1

Abstract

High-frequency static converters requires inductors, common and differential mode chokes with a low equivalent parallel capacitance. To reduce it, this paper proposes first a semi-analytical model of this capacitance for inductors made with coated ring cores of nano-crystalline material. This model is based on 2D finite element method to compute the turn-turn and turn-core parasitic capacitances, taking into account loose windings. Then the total capacitance is computed thanks to an energetic approach. The model is validated against measurements performed on one core for several numbers of turns. Since the model shows that the capacitance is almost linear with the parasitic turn-core capacitance, specific devices are proposed to increase the distance between turns and core and thus decrease the capacitance. It is demonstrated that a small increase in overall volume allows to divide the equivalent parallel capacitance of a common mode choke by almost a factor of three while increasing its overall volume by only 37%.

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环形铁芯电感寄生电容的建模与最小化

高频静态变换器需要电感、共模和差动模扼流圈具有较低的等效并联电容。为了减小这种电容，本文首先提出了用纳米晶体材料涂层环形磁芯制成的电感电容的半解析模型。该模型基于二维有限元法计算了考虑松散绕组的匝匝和匝芯寄生电容。然后利用能量法计算总电容。该模型通过在一个磁芯上进行数圈的测量来验证。由于该模型显示电容与寄生匝心电容几乎呈线性关系，因此提出了增加匝心距离从而减小电容的特定器件。结果表明，总体积的小幅增加可以将共模扼流圈的等效并联电容几乎分成三倍，而总体积仅增加37%。

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来源期刊

2021 23rd European Conference on Power Electronics and Applications (EPE'21 ECCE Europe)

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