This paper is concerned with the thermal models which can physically reflect the heat-flow paths in a lightweight three-phase half bridge, two-level SiC power module with 6 MOSFETs and can be used for coupled electro-thermal simulation. The finite element (FE) model was first evaluated and calibrated to provide the raw data for establishing the physical RC network model. It was experimentally verified that the cooling condition of the module mounted on a water cooler can be satisfactorily described by assuming the water cooler as a heat exchange boundary in the FE model. The compact RC network consisting of 115 R and C parameters to predict the transient junction temperatures of the 6 MOSFETS was constructed, where cross-heating effects bet...
The paper presents a precise and efficient model of Double-Side Cooled (DSC) SiC MOSFET, which incor...
Effectively removing dissipated heat from the switching devices enables a higher current carrying ca...
This paper presents a computationally efficient 3-D simulation approach for the dynamic electrotherm...
This paper is concerned with the thermal models which can physically reflect the heat-flow paths in ...
In a compact power electronics systems such as converters, thermal interaction between components is...
In this paper, an advanced electrothermal simulation strategy is applied to a 3.3 kV silicon carbide...
The power module is an important building block of a power electronic converter used in high power a...
In this paper, an advanced electrothermal simulation strategy is applied to a 3.3 kV silicon carbide...
This paper presents the modeling of the electrothermal and electromagnetic behavior in SiC-based mul...
International audienceThis paper proposes an electro thermal model for power silicon carbide (SiC) M...
This paper focuses on the thermal investigation of SiC-based power modules with the purpose to suppo...
The reliability of power modules is closely depended on their electrical and thermal behavior in ope...
Increasing energy demands in different application fields of power electronics (e.g. Photovoltaics, ...
This paper presents a modelling framework to simulate transients and steady state performance for Si...
This paper discusses the benefits of an advanced highly-efficient approach to static and dynamic ele...
The paper presents a precise and efficient model of Double-Side Cooled (DSC) SiC MOSFET, which incor...
Effectively removing dissipated heat from the switching devices enables a higher current carrying ca...
This paper presents a computationally efficient 3-D simulation approach for the dynamic electrotherm...
This paper is concerned with the thermal models which can physically reflect the heat-flow paths in ...
In a compact power electronics systems such as converters, thermal interaction between components is...
In this paper, an advanced electrothermal simulation strategy is applied to a 3.3 kV silicon carbide...
The power module is an important building block of a power electronic converter used in high power a...
In this paper, an advanced electrothermal simulation strategy is applied to a 3.3 kV silicon carbide...
This paper presents the modeling of the electrothermal and electromagnetic behavior in SiC-based mul...
International audienceThis paper proposes an electro thermal model for power silicon carbide (SiC) M...
This paper focuses on the thermal investigation of SiC-based power modules with the purpose to suppo...
The reliability of power modules is closely depended on their electrical and thermal behavior in ope...
Increasing energy demands in different application fields of power electronics (e.g. Photovoltaics, ...
This paper presents a modelling framework to simulate transients and steady state performance for Si...
This paper discusses the benefits of an advanced highly-efficient approach to static and dynamic ele...
The paper presents a precise and efficient model of Double-Side Cooled (DSC) SiC MOSFET, which incor...
Effectively removing dissipated heat from the switching devices enables a higher current carrying ca...
This paper presents a computationally efficient 3-D simulation approach for the dynamic electrotherm...