Abstract This paper proposes a new methodology based on the multi-port network theory to predict the vehicle-level electromagnetic compatibility performance. The original EMC problem is firstly converted to a network by separating the electrical large structures and electrical small components. The impedance is proposed to describe the coupling process of network to eliminate the influence of port impedance on network. Based on this network model, the relationship between the exciting sources and the sensitive components is set up using the multi-port network theory. Furthermore, some application problems, such as measurement of parameters, are also discussed. After validated by a bench test, this methodology for vehicle level electromagnetic compatibility was further applied to predict and improve the low frequency radiated emission of an electric vehicle. The application results show that it can be used to predict electromagnetic interference and analyze the main exciting source satisfactorily.
Vehicle-Level Electromagnetic Compatibility Prediction Based on Multi-Port Network Theory
International Journal of Automotive Technology ; 20 , 6 ; 1277-1285
2019-09-16
9 pages
Article (Journal)
Electronic Resource
English
Vehicle-Level Electromagnetic Compatibility Prediction Based on Multi-Port Network Theory
Online Contents | 2019
|Electromagnetic compatibility of electric vehicle
TIBKAT | 2021
|Whole vehicle electromagnetic compatibility testing
Automotive engineering | 1988
|Vehicle Testing for Electromagnetic Compatibility
Automotive engineering | 1981
|Vehicle Testing for Electromagnetic Compatibility
SAE Technical Papers | 1981
|