Please use this identifier to cite or link to this item: http://hdl.handle.net/20.500.12666/950
Title: Time Domain Simulation of Common Mode Ferrite Chokes at System Level
Authors: Gascón Bravo, Alberto
García, S. G.
Muñoz Manterola, Alejandro
Añón Cancela, M.
Moreno, Roberto
Tekbaş, Kenan
Angulo, L. D.
Keywords: Common mode (CM) chokes;Complex permeability;Ferrite;Finite differences time domain;Finite element method (FEM);Multitransmission lines;Transmission lines
Issue Date: 11-Sep-2023
Publisher: Institute of Electrical and Electronics Engineers
DOI: 10.1109/TEMC.2023.3309698
Published version: https://ieeexplore.ieee.org/document/10246364
Citation: IEEE Transactions on Electromagnetic Compatibility 65(6): 1900-1908(2023)
Abstract: This article introduces a comprehensive methodology for analyzing common-mode (CM) ferrite chokes in time-domain (TD) methods, employing lumped dispersive loads, and validates it through a typical test setup for cable crosstalk assessment. The analysis begins with the experimental characterization of CM choke material properties using a coaxial line fixture to obtain its constitutive parameters. Subsequently, a simplified lumped dispersive convolutional model is obtained, representing the impedance of the ferrite when placed on a location on the cable. The first approach adopts a multiconductor transmission line (MTL) model for the cables, solving them by a finite-difference (FDTD) space-time scheme. The second approach utilizes the classical full-wave Yee-FDTD method in conjunction with the thin-wire Holland model for cables. The accuracy of the proposed methods is evaluated by comparing simulations performed with MTL-FDTD and Holland-Yee FDTD, to experimental measurements, and results obtained with the the frequency-domain finite element method using a 3-D model of the ferrite with its constitutive parameters. Finally, the validity and performance of the methodologies are critically discussed.
Description: Alberto Gascón Bravo(UGR) [0000-0003-1190-2248] ; Salvador G. Garcia(UGR) [0000-0001-7317-1423] ; Alejandro Muñoz Manterola(UGR) [0000-0002-2406-8128] ; Manuel Añón-Cancela [0000-0002-6218-8307] ; Roberto Moreno(UGR) [0000-0003-0032-1931] ; Kenan Tekbas (UGR) [0000-0002-0678-9001] ; and Luis D. Angulo(UGR) [0000-0002-1690-7892].
URI: http://hdl.handle.net/20.500.12666/950
E-ISSN: 1558-187X
ISSN: 0018-9375
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