EMI modeling of half-bridge inverter using a generalized terminal model

A generalized terminal model has been proposed to predict the conducted electromagnetic interference (EMI) from a boost converter. The results of conducted emissions have shown a good agreement up to 50 MHz. The same technique was also successfully applied to extract a terminal model of buck convert...

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Hauptverfasser:	Bishnoi, H, Baisden, A C, Mattavelli, P, Boroyevich, D
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Computational modeling Converters Electromagnetic interference Impedance Integrated circuit modeling Inverters Mathematical model
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creator	Bishnoi, H Baisden, A C Mattavelli, P Boroyevich, D
description	A generalized terminal model has been proposed to predict the conducted electromagnetic interference (EMI) from a boost converter. The results of conducted emissions have shown a good agreement up to 50 MHz. The same technique was also successfully applied to extract a terminal model of buck converter. This paper extends the generalized terminal modeling approach to a larger class of power converters by attempting to model a dc-ac converter from the dc terminal side. Modeling the terminal behavior of an ac system is more challenging than it is for dc-dc converters because of the time-varying converter operating point. The proposed technique is applied to a single-phase half-bridge inverter to show its versatility in modeling conducted emissions from ac systems. Measured and predicted conducted emissions from a half-bridge inverter are in a good agreement within 6 dB up to 30 MHz.
doi_str_mv	10.1109/APEC.2011.5744638
format	Conference Proceeding
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subjects	Computational modeling Converters Electromagnetic interference Impedance Integrated circuit modeling Inverters Mathematical model
title	EMI modeling of half-bridge inverter using a generalized terminal model
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