Modular-Terminal-Behavioral (MTB) Model for Characterizing Switching Module Conducted EMI Generation in Converter Systems

Author

Qian Liu ; Fei Wang ; Boroyevich, D.

Author_Institution

GE Global Res. Center, Niskayuna, NY

Volume

21

Issue

6

fYear

2006

Firstpage

1804

Lastpage

1814

Abstract

This paper proposes a new frequency-domain modular-terminal-behavioral (MTB) modeling approach for characterizing conducted electromagnetic interference (EMI) noise sources in a converter. It models the EMI emission of a switching device module under specific switching conditions using a three-terminal equivalent Norton network, which can be extracted from a standard test. Experiments show that the MTB model can be used to accurately predict the EMI noise in a converter for the entire conducted EMI frequency range. It is more general and more accurate than the existing behavioral models, especially in the high frequency range, and it is more convenient than the physics-based model. The study also verifies the importance of EMI source impedance modeling and interactions between common mode and differential mode noises

Keywords

electromagnetic interference; equivalent circuits; switching convertors; EMI generation; EMI noise; converter systems; differential mode noise; electromagnetic interference; frequency-domain modular-terminal-behavioral modeling approach; source impedance modeling; switching module conduction; three-terminal equivalent Norton network; Character generation; Electromagnetic interference; Electromagnetic modeling; Noise generators; Nonlinear equations; Power generation; Power system management; Power system modeling; Predictive models; Switching converters; Common mode (CM); differential mode (DM); electromagnetic inference (EMI); modular-terminal-behavioral (MTB) modeling;

fLanguage

English

Journal_Title

Power Electronics, IEEE Transactions on

Publisher

ieee

ISSN

0885-8993

Type

jour

DOI

10.1109/TPEL.2006.882903

Filename

4012163