Analytical Model and Concept Study of an Air Gap Fringing Shield to Reduce Losses in Gapped Inductors

被引：1

作者：

Ewald, Thomas ^{[1
]}

Biela, Jurgen ^{[1
]}

机构：

[1] Fed Inst Technol, Dept Informat Technol & Elect Engn, CH-8092 Zurich, Switzerland

来源：

IEEE TRANSACTIONS ON POWER ELECTRONICS | 2024年 / 39卷 / 10期

关键词：

Windings; Inductors; Magnetic cores; Air gaps; Vectors; Magnetic shielding; Magnetic noise; Air gap; fringing field; fringing losses; gapped inductors; high frequency (HF); inductance; winding losses; WINDING LOSS; FREQUENCY;

D O I：

10.1109/TPEL.2024.3429428

中图分类号：

TM [电工技术]; TN [电子技术、通信技术];

学科分类号：

0808 ; 0809 ;

摘要：

The impact of the magnetic fringing field emanating from the air gap in gapped inductors on the high-frequency losses has been known for a while. While most research focuses on accurately calculating these losses, attempts to reduce them through suitable measures are rare. This article investigates a concept that uses a fringing field shield to attenuate the fringing field at higher frequencies, thereby reducing losses in the winding. With this approach, losses in the shield itself occur, but the overall winding losses are reduced by 24% for an inductor subjected to a current waveform with a mixed harmonic spectrum and a dominant low-frequency component. The concept is proven using a manufactured prototype.

引用

页码：13487 / 13496

页数：10

共 50 条

[41] A study on ITZ percolation threshold of air-entrained mortar: Numerical simulation and analytical model
Pan, Zichao
Ma, Rujin
Chen, Airong
CONSTRUCTION AND BUILDING MATERIALS, 2022, 322
[42] Multi-stage air gap membrane distillation reversal for hot impaired quality water treatment: Concept and simulation study
Lee, JungGil
Alsaadi, Ahmad S.
Ghaffour, Noreddine
DESALINATION, 2019, 450 : 1 - 11
[43] A Novel Analytical Model for No-Load, Slotted, Surface-Mounted PM Machines: Air Gap Flux Density and Cogging Torque
Boroujeni, Samad Taghipour
Zamani, Vahid
IEEE TRANSACTIONS ON MAGNETICS, 2015, 51 (04)
[44] 3D Analytical Model to Analysis the Magnetic Field and Characteristic of Coreless Linear Induction Maglev Motor for Uneven Air Gap Conditions
Qin W.
Lyu G.
Ma Y.
Mahmuda R.
Fang J.
Zhongguo Dianji Gongcheng Xuebao/Proceedings of the Chinese Society of Electrical Engineering, 2023, 43 (09): : 3564 - 3574
[45] Analytical Model of Slotted Air-Gap Surface Mounted Permanent-Magnet Synchronous Motor With Magnet Bars Magnetized in the Shifting Direction
Boughrara, Kamel
Chikouche, Brahim Ladghem
Ibtiouen, Rachid
Zarko, Damir
Touhami, Omar
IEEE TRANSACTIONS ON MAGNETICS, 2009, 45 (02) : 747 - 758
[46] Exact analytical model of the no-load flux density in the air-gap, the permanent magnets and the rotor yoke for the surface mounted permanent magnet motors
Dubas, F.
Espanet, C.
INTERNATIONAL REVIEW OF ELECTRICAL ENGINEERING-IREE, 2007, 2 (03): : 425 - 437
[47] Analytical Model of Air-Gap Magnetic Field of Slotted Axial Flux Permanent Magnet Motor Based on Improved Complex Relative Permeance Function
Tong, Wenming
Du, Shaoyu
Jia, Jianguo
Huang, Rui
Diangong Jishu Xuebao/Transactions of China Electrotechnical Society, 2024, 39 (24): : 7700 - 7711
[48] Analytical Model of Open-Circuit Air Gap Flux Density in High Speed Permanent Magnet Machines Accounting for Winding Eddy Current Reaction
Xu, Xin
Deng, Zhiquan
Zhang, Zhongming
Wang, Zelin
2020 INTERNATIONAL CONFERENCE ON ELECTRICAL MACHINES (ICEM), VOL 1, 2020, : 2372 - 2378
[49] Experimental study of fluid motion in air gap using scaled water model - (Winding efficiency of rotor surface shape of air-cooled generators)
Umemoto, T
Oshima, T
Kaga, K
Kotoh, S
JSME INTERNATIONAL JOURNAL SERIES B-FLUIDS AND THERMAL ENGINEERING, 1998, 41 (03) : 703 - 708
[50] Hybrid analytical model for air-gap magnetic field prediction of surface-mounted permanent magnet motors with a quasi-regular polygon rotor
Chen, Chuntao
Wu, Xinzhen
Yuan, Xibo
Ding, Zhuang
Zheng, Xiaoqin
IET ELECTRIC POWER APPLICATIONS, 2023, 17 (09) : 1136 - 1147

← 1 2 3 4 5 →