AC Saturation Measurement Method for Inductor Cores

Rodica Botnarevscaia; Cathrine E.S. Feloups; Tom Hartman; Niek Moonen; Frank Leferink

doi:10.1109/LEMCPA.2025.3584402

AC Saturation Measurement Method for Inductor Cores

Rodica Botnarevscaia^*
, Cathrine E.S. Feloups
, Tom Hartman
, Niek Moonen
, Frank Leferink

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

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Abstract

Saturation of common-mode chokes (CMCs) in high-power and wide-frequency band applications leads to elevated electromagnetic-interference levels that negatively impact the primary system and nearby devices. However, detecting such CMC saturation is often complex, time-consuming, and costly. This letter presents a method for detecting core saturation by introducing a high-frequency (HF) signal alongside the operational frequencies, including the fundamental switching signal and its harmonics, of a high-power system. To validate the concept, the technique is tested in a controlled environment using an HF detection signal combined with low-frequency saturating current. Experimental results confirm the method’s feasibility, and recommendations for practical implementation are provided.

Original language	English
Pages (from-to)	84-89
Number of pages	6
Journal	IEEE Letters on Electromagnetic Compatibility Practice and Applications
Volume	7
Issue number	3
Early online date	1 Jul 2025
DOIs	https://doi.org/10.1109/LEMCPA.2025.3584402
Publication status	Published - Sept 2025

Keywords

2026 OA procedure
Common-mode choke (CMC)
detection signal
magnetic field
magnetic flux density
magnetic permeability
nanocrystalline core
saturation

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10.1109/LEMCPA.2025.3584402

ArticleFinal published version, 3.12 MBLicence: Taverne

Cite this

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title = "AC Saturation Measurement Method for Inductor Cores",

abstract = "Saturation of common-mode chokes (CMCs) in high-power and wide-frequency band applications leads to elevated electromagnetic-interference levels that negatively impact the primary system and nearby devices. However, detecting such CMC saturation is often complex, time-consuming, and costly. This letter presents a method for detecting core saturation by introducing a high-frequency (HF) signal alongside the operational frequencies, including the fundamental switching signal and its harmonics, of a high-power system. To validate the concept, the technique is tested in a controlled environment using an HF detection signal combined with low-frequency saturating current. Experimental results confirm the method{\textquoteright}s feasibility, and recommendations for practical implementation are provided.",

keywords = "2026 OA procedure, Common-mode choke (CMC), detection signal, magnetic field, magnetic flux density, magnetic permeability, nanocrystalline core, saturation",

author = "Rodica Botnarevscaia and Feloups, \{Cathrine E.S.\} and Tom Hartman and Niek Moonen and Frank Leferink",

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doi = "10.1109/LEMCPA.2025.3584402",

language = "English",

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T1 - AC Saturation Measurement Method for Inductor Cores

AU - Botnarevscaia, Rodica

AU - Feloups, Cathrine E.S.

AU - Hartman, Tom

AU - Moonen, Niek

AU - Leferink, Frank

N1 - Copyright: 2025 IEEE.

PY - 2025/9

Y1 - 2025/9

N2 - Saturation of common-mode chokes (CMCs) in high-power and wide-frequency band applications leads to elevated electromagnetic-interference levels that negatively impact the primary system and nearby devices. However, detecting such CMC saturation is often complex, time-consuming, and costly. This letter presents a method for detecting core saturation by introducing a high-frequency (HF) signal alongside the operational frequencies, including the fundamental switching signal and its harmonics, of a high-power system. To validate the concept, the technique is tested in a controlled environment using an HF detection signal combined with low-frequency saturating current. Experimental results confirm the method’s feasibility, and recommendations for practical implementation are provided.

AB - Saturation of common-mode chokes (CMCs) in high-power and wide-frequency band applications leads to elevated electromagnetic-interference levels that negatively impact the primary system and nearby devices. However, detecting such CMC saturation is often complex, time-consuming, and costly. This letter presents a method for detecting core saturation by introducing a high-frequency (HF) signal alongside the operational frequencies, including the fundamental switching signal and its harmonics, of a high-power system. To validate the concept, the technique is tested in a controlled environment using an HF detection signal combined with low-frequency saturating current. Experimental results confirm the method’s feasibility, and recommendations for practical implementation are provided.

KW - 2026 OA procedure

KW - Common-mode choke (CMC)

KW - detection signal

KW - magnetic field

KW - magnetic flux density

KW - magnetic permeability

KW - nanocrystalline core

KW - saturation

U2 - 10.1109/LEMCPA.2025.3584402

DO - 10.1109/LEMCPA.2025.3584402

M3 - Article

SN - 2637-6423

VL - 7

SP - 84

EP - 89

JO - IEEE Letters on Electromagnetic Compatibility Practice and Applications

JF - IEEE Letters on Electromagnetic Compatibility Practice and Applications

IS - 3

ER -

AC Saturation Measurement Method for Inductor Cores

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