Numerical Modeling of Capacitive Effects in HF Multiwinding Transformers—Part I: A Rigorous Formalism Based on the Electrostatic Equations

De Greve Z.; Deblecker O.; Lobry J.

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Numerical Modeling of Capacitive Effects in HF Multiwinding Transformers—Part I: A Rigorous Formalism Based on the Electrostatic Equations

机译：高频多绕组变压器电容效应的数值建模-第一部分：基于静电方程式的严格形式主义

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This paper is the first part of a work which aims at proposing a global approach for the numerical modeling of parasitic capacitances in high-frequency multiwinding transformers. In this first part, various capacitive circuits of $n$-winding magnetic components are presented. Careful attention is paid to the definition of a rigorous mathematical formalism based on the electrostatic equations, valid for any number of windings. The numerical identification of the proposed circuits is discussed in a companion paper.

机译：本文是旨在提出一种用于高频多绕组变压器中寄生电容数值建模的全局方法的第一部分。在第一部分中，介绍了 $ n $ -绕组磁性元件的各种电容电路。请注意基于静电方程式的严格数学形式主义的定义，该形式对任意数量的绕组均有效。随附论文中讨论了所建议电路的数值识别。

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《Magnetics, IEEE Transactions on》 |2013年第5期|2017-2020|共4页
作者
De Greve Z.; Deblecker O.; Lobry J.;
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作者单位

Department of Power Electrical Engineering,, University of Mons,, Mons, Belgium;

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正文语种 eng
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Finite-element methods; magnetic components; parasitic capacitances;

机译：有限元方法;磁性元件;寄生电容;
入库时间 2022-08-17 13:03:42

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1. Numerical Modeling of Capacitive Effects in HF Multiwinding Transformers—Part II: Identification Using the Finite-Element Method [J] . De Greve Z., Deblecker O., Lobry J. Magnetics, IEEE Transactions on . 2013,第5期

机译：高频多绕组变压器电容效应的数值模型—第二部分：使用有限元方法识别
2. Leakage Flux Modeling of Multiwinding Transformers for System-Level Simulations [J] . Min Luo, Drazen Dujic, Jost Allmeling IEEE Transactions on Power Electronics . 2018,第3期

机译：用于系统级仿真的多绕组变压器泄漏磁通建模
3. Equivalent Circuit for the Leakage Inductance of Multiwinding Transformers: Unification of Terminal and Duality Models [J] . Alvarez-Marino C., de Leon F., Lopez-Fernandez X. M. Power Delivery, IEEE Transactions on . 2012,第1期

机译：多绕组变压器漏感的等效电路：端子和对偶模型的统一
4. An Efficient Approach for the Numerical Identification of R, L Parameters of High Frequency Multiwinding Transformers [C] . Zacharie De Greve, Olivier Deblecker, Jacques Lobry IEEE Workshop on Control and Modeling for Power Electronics . 2010

机译：高频多风线变压器R，L参数的数值识别的有效方法
5. Rigorous shadowing of numerical solutions of ordinary differential equations by containment. [D] . Hayes, Wayne Brian. 2001

机译：对包含常微分方程数值解的严密遮蔽。
6. UHF Partial Discharge Location in Power Transformers via Solution of the Maxwell Equations in a Computational Environment [O] . Luiz A. M. M. Nobrega, Edson G. Costa, Alexandre J. R. Serres, 2019

机译：计算环境中麦克斯韦方程组求解的电力变压器中UHF局部放电位置
7. This article presents a new numerical model describing the behaviour of a thermally thick wood sample exposed to high solar heat flux (above 1 MW/m2). A preliminary study based on dimensionless numbers is used to classify the problem and support model building assumptions. Then, a model based on mass, momentum and energy balance equations is proposed. These equations are coupled with liquid-vapour drying model and pseudo species biomass degradation model. By comparing to a former experimental study, preliminary results have shown that these equations are not enough to accurately predict biomass behaviour under high solar heat flux. Indeed, a char layer acting as radiative shield forms on the sample exposed surface. In addition to this classical set of equations, it is mandatory to take into account radiation penetration into the medium. Furthermore, as biomass contains water, medium deformation consecutively to char steam gasification must also be implemented. Finally, with the addition of these two strategies, the model is able to properly capture the degradation of biomass when exposed to high radiative heat flux over a range of sample initial moisture content. Additional insights of biomass behaviour under high solar heat flux were also derived. Drying, pyrolysis and gasification fronts are present at the same time inside of the sample. The coexistence of these three thermochemical fronts leads to char gasification by the steam produced from drying of the sample, which it is the main phenomenon behind medium ablation. [O] . Pozzobon, Victor, Salvador, Sylvain, Bézian, Jean Jacques 2018

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Numerical Modeling of Capacitive Effects in HF Multiwinding Transformers—Part I: A Rigorous Formalism Based on the Electrostatic Equations

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