Air Gap and Edge Effect in the 2-D/1-D Method With the Magnetic Vector Potential  A  Using MSFEM

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Air Gap and Edge Effect in the 2-D/1-D Method With the Magnetic Vector Potential A Using MSFEM

机译：使用MSFEM的带有磁矢量势A的2-D / 1-D方法中的气隙和边缘效应

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Eddy currents (ECs) are simulated in a single laminate, representing the whole core of an electrical machine. Despite this drastic reduction in the complexity of the problem, a 3-D finite-element model turns out to be still too expensive for simulations. To overcome this difficulty, 2-D/1-D methods are used. This article presents a solution to consider both air gap and edge effect (EE) based on the multiscale finite-element method (MSFEM) using the magnetic vector potential (MVP) ${A}$ . Linear material properties are assumed; therefore, this article is carried out in the frequency domain. The new 2-D/1-D MSFEM is discussed, and various simulation results are presented.

机译：涡流（EC）在单个层压板中模拟，代表电机的整个核心。尽管大大降低了问题的复杂性，但3D有限元模型对于仿真而言仍然过于昂贵。为了克服该困难，使用了2-D / 1-D方法。本文提出了一种使用磁矢量势（MVP）$ {A} $的基于多尺度有限元方法（MSFEM）的同时考虑气隙和边缘效应（EE）的解决方案。假设线性材料属性;因此，本文在频域中进行。讨论了新的2-D / 1-D MSFEM，并给出了各种仿真结果。

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《IEEE Transactions on Magnetics》 |2020年第1期|1-5|共5页
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Tech Univ Wien Inst Anal & Sci Comp A-1040 Vienna Austria;

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2-D; 1-D method; eddy-current (EC) problems; edge effect (EE); iron core; lamination; magnetic vector potential (MVP) italic xmlns:ali="http:; www; niso; org; schemas; ali; 1; 0; " xmlns:mml="http:; www; w3; org; 1998; Math; MathML" xmlns:xlink="http:; www; w3; org; 1999; xlink" xmlns:xsi="http:; www; w3; org; 2001; A XMLSchema-instance" A; italic; multiscale finite-element method (MSFEM);

机译：2-D;一维方法;涡流（EC）问题;边缘效应（EE）铁心;层压;磁矢量势（MVP）斜体xmlns：ali =“ http :;www;niso;org;schemas;ali;1;0;” xmlns：mml =“ http :;www;w3;org;1998;Math;MathML “ xmlns：xlink =” http :;www;w3;org;1999;xlink“ xmlns：xsi =” http :;www;w3;org;2001;A XMLSchema-instance“ A;斜体;多尺度有限元方法（MSFEM）;

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1. Development and Integration of 1-D and 2-D Electromagnetic Band Gap Structures with Sierpinski and Minkowski Microstrip Fractal Antenna [J] . Vandana Nath, Munish Kumar Journal of Computational Intelligence and Electronic Systems . 2014,第3期

机译：用Sierpinski和Minkowski微带分形天线的1-D和2-D电磁带隙结构的开发和集成
2. Theoretical Analysis of Gap Potential Functions and Corner Saturation in 2-D, Symmetric Magnetic Recording Heads With Tilted Gap Corners [J] . Mustafa M. Aziz, Ammar I. Edress IEEE Transactions on Magnetics . 2016,第12期

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3. Method of fast 1-D paired transforms for computing the 2-D discreteHadamard transform [J] . Grigoryan A.M., Agaian S.S. IEEE Transactions on Circuits and Systems. II, Express Briefs . 2000,第12期

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4. 3D modeling of the movement of machine using mortar method for edge finite elements of magnetic vector potential formulation [C] . Pauline Ferrouillat, Christophe Guérin, Gérard Meunier, 17th Biennial IEEE Conference on Electromagnetic Field Computation . 2016

机译：使用砂浆法对磁矢量势形成的边缘有限元进行机械运动的3D建模
5. Novel Methods to Determine and Use the Magnetic Vector Potential in Numerical General Relativistic Magnetohydrodynamics [D] . Silberman, Zachary J. 2018

机译：确定和使用数值广义相对论磁流体力学中磁矢量势的新方法
6. Blocked Elements in 1-D and 2-D Arrays—Part II: Compensation Methods as Applied to Large Coherent Apertures [O] . Marko Jakovljevic, Nick Bottenus, Lily Kuo, -1

机译：一维和二维阵列中的受阻元素-第二部分：应用于大相干孔径的补偿方法
7. Air Gap and Edge Effect in the 2-D/1-D Method With the Magnetic Vector Potential ${A}$ Using MSFEM [O] . Karl Hollaus, Markus Schobinger 2020

机译：使用MSFEM的磁矢量潜在$ {A} $中的2-D / 1-D方法中的气隙和边缘效应
8. Comparison of HELIX TWT Simulation Using 2-D PIC (Magic), 2-D Modal (Gator), and 1-D Modal (Christine) Methods [R] . Smithe, D. N. , Freund, H. , Antonsen, T. M. , 1998

机译：使用2-D pIC（魔术），2-D模态（Gator）和1-D模态（Christine）方法进行HELIX TWT仿真的比较

Air Gap and Edge Effect in the 2-D/1-D Method With the Magnetic Vector Potential A Using MSFEM

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