A Fast and Precise Method for Modeling EMI Source in Two-Level Three-Phase Converter

Currently, frequency-domain electromagnetic interference (EMI) modeling has become the most commonly used method for EMI prediction and filter design. However, because of the unpredictability of the ringing effect in the present frequency-domain EMI modeling methods, the precision of the predicted E...

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Veröffentlicht in:	IEEE transactions on power electronics 2019-11, Vol.34 (11), p.10650-10664
Hauptverfasser:	Xiang, Yangxiao, Pei, Xuejun, Zhou, Wu, Kang, Yong, Wang, Hanyu
Format:	Artikel
Sprache:	eng
Schlagworte:	Capacitance Electric converters Electromagnetic interference Filter design (mathematics) Frequency domain analysis Frequency domain electromagnetic interference (EMI) prediction Frequency measurement interference source Mathematical model Mathematical models Measuring instruments parasitic parameter extraction Predictions Predictive models ringing effect Switches Time-domain analysis
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creator	Xiang, Yangxiao Pei, Xuejun Zhou, Wu Kang, Yong Wang, Hanyu
description	Currently, frequency-domain electromagnetic interference (EMI) modeling has become the most commonly used method for EMI prediction and filter design. However, because of the unpredictability of the ringing effect in the present frequency-domain EMI modeling methods, the precision of the predicted EMI interference source is notably limited, which results in the inaccuracy of the system level EMI prediction. In order to achieve an accurate EMI prediction, this study presents a systematical study on the interference source of a 10 kVA three-phase bridge converter. The precise mathematical models of the common-mode and differential-mode interference source are constructed. Then, the characteristics of the multiple ringing effect, which is an important part of the interference source, are intensively analyzed. Based on the investigation of interference source, an improved interference source synthesis method is proposed. It can quickly and precisely predict the CM and DM interference source with multiple ringing effect, which can be used to achieve accurate frequency domain EMI prediction. Moreover, the multiple ringing effect is extended for IGBT parasitic parameter measuring. Instead of complicated device-level measurement, the grounding capacitance and junction capacitance can be effectively extracted through the ringing frequency measurement.
doi_str_mv	10.1109/TPEL.2019.2891120
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However, because of the unpredictability of the ringing effect in the present frequency-domain EMI modeling methods, the precision of the predicted EMI interference source is notably limited, which results in the inaccuracy of the system level EMI prediction. In order to achieve an accurate EMI prediction, this study presents a systematical study on the interference source of a 10 kVA three-phase bridge converter. The precise mathematical models of the common-mode and differential-mode interference source are constructed. Then, the characteristics of the multiple ringing effect, which is an important part of the interference source, are intensively analyzed. Based on the investigation of interference source, an improved interference source synthesis method is proposed. It can quickly and precisely predict the CM and DM interference source with multiple ringing effect, which can be used to achieve accurate frequency domain EMI prediction. 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subjects	Capacitance Electric converters Electromagnetic interference Filter design (mathematics) Frequency domain analysis Frequency domain electromagnetic interference (EMI) prediction Frequency measurement interference source Mathematical model Mathematical models Measuring instruments parasitic parameter extraction Predictions Predictive models ringing effect Switches Time-domain analysis
title	A Fast and Precise Method for Modeling EMI Source in Two-Level Three-Phase Converter
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