Minimally Invasive Direct In-situ Magnetic Loss Measurement in Power Electronic Circuits

Designing a good magnetic component is essential for achieving high efficiency in power converters. However, validating such a design is difficult, especially when the power converter operates in the desired condition. Accurate direct in-situ magnetic loss measurement has been known as unattainable...

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Bibliographic Details
Published inIEEE transactions on power electronics Vol. 38; no. 11; pp. 1 - 11
Main Authors Yi, Lifang, McTigue, Mike, Gines, David, Doerr, Brad, Moon, Jinyeong
Format Journal Article
LanguageEnglish
Published New York IEEE 01.11.2023
The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
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Buck converters
Circuit design
Converter
DC-DC
Direct
Electronic circuits
Energy conversion efficiency
Errors
Inductor
Inductors
Loss
Loss measurement
Magnetic
Magnetic hysteresis
Magnetic losses
Mathematical models
Measurement
Measurement uncertainty
Misalignment
Power
Power converters
Skew
Time measurement
Timing
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Summary:Designing a good magnetic component is essential for achieving high efficiency in power converters. However, validating such a design is difficult, especially when the power converter operates in the desired condition. Accurate direct in-situ magnetic loss measurement has been known as unattainable due to an unknown timing skew between measurement channels. The unavoidable timing skew, arising from various reasons, can introduce highly excessive measurement errors, rendering the direct in-situ loss measurement unfit to be used in reality. This paper proposes a novel method to eliminate the errors associated with the timing skew and make the accurate, direct, and in-situ magnetic loss measurement practical and minimally invasive. The new method, termed as improved Dual-curve Derivative method, is introduced and analyzed in detail based on mathematical models. Compared to the existing methods, the novel method achieves more accurate measurements while reducing invasiveness to the power converter. The operational principles and performance of the improved Dual-curve Derivative method are verified in simulation and validated in experiments in a DC-DC step-down buck converter, subject to various realistic circuit parameters.
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content type line 14
ISSN:0885-8993
1941-0107
DOI:10.1109/TPEL.2023.3298211