Journal Article10.1109/TPEL.2013.2286830
New Core Loss Measurement Method for High-Frequency Magnetic Materials
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TL;DR: In this paper, a new method is proposed for high-frequency core loss measurement that utilizes capacitive cancellation, which is suitable for HF and VHF core loss measurements, and it greatly reduces the sensitivity to phase discrepancy, the dominating error source in the conventional two-winding method.
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Abstract: Magnetic core loss is an important concern for power converters. As the switching frequency increases and converter size reduced, the core loss will have significant impact to the converter efficiency and temperature. Accurate evaluation is important for magnetic design and converter loss estimation. The classic two-winding method is limited to low frequencies (usually below 1 MHz) because it is sensitive to phase discrepancy. In this paper, a new method is proposed for high-frequency core loss measurement that utilizes capacitive cancellation, which is suitable for HF and VHF core loss measurement. The new method greatly reduces the sensitivity to phase discrepancy, which is the dominating error source in the conventional two-winding method. An experimental demonstration is performed at 10 MHz, and the possible errors are analyzed in detail. With the proposed method, the high-frequency core loss can be accurately measured.
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Citations
A Simplified DC-Bias Injection Method for Characterizing Power Magnetics Using a Voltage Mirror Transformer
Shukai Wang,Haoran Li,Diego Serrano,Thomas Guillod,Joe Li,Charles R. Sullivan,Minjie Chen +6 more
TL;DR: A simplified dc-bias injection method using a voltage mirror transformer for characterizing power magnetics improves accuracy and reduces equipment complexity.
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