Bond graph modeling, DAE formulation and numeric simulation of a three phase rectifier

Bond graph modeling, DAE formulation and numeric simulation of a three phase rectifier

This paper describes how to apply a group of alternative methodologies to the modeling and simulation of a three phase rectifier. The system is a full bridge rectifier with RC load, that consist of diodes that are modeled with the accurate and close-to-real constituve relation of Shockley. This cons...

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Hauptverfasser: Villa-Villasenor, N., Gonzalez-Avalos, Gilberto, Rico-Melgoza, J.
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Bond Graph
causal paths
DAE formulation
Equations
Integrated circuit modeling
Linear Graph and Tree theory
Load modeling
Mathematical model
modified nodal analysis
Numerical models
Shockley model of the diode
Switches
Three phase full bridge rectifier
Topology
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Beschreibung
Zusammenfassung:This paper describes how to apply a group of alternative methodologies to the modeling and simulation of a three phase rectifier. The system is a full bridge rectifier with RC load, that consist of diodes that are modeled with the accurate and close-to-real constituve relation of Shockley. This constitutive relation bring an unvariable topology and a non linear nature to the whole system. The emerging non linearities are handled with the described methodologies, and a procedure to formulate differential-algebraic equations (DAE) is reviewed. The obtained DAE is numerically solved and simulation results are presented. In order to prove the significance of the modeling and simulation approach, non standard conditions, such as unbalanced sources are included.
DOI:10.1109/MMAR.2012.6347843