Effectively removing dissipated heat from the switching devices enables a higher current carrying capability per chip area ratio, thus leading to smaller or fewer devices for a given power requirement specification. Further, the use of SiC based devices has proven to increase the efficiency of the system thereby reducing the dissipated heat. Thermal models have been used to compare SiC power modules. Single and double sided cooling have been simulated. The simulated maximum temperatures were 141 \ub0C for the single sided version and 119.7 \ub0C for the double sided version. In addition, the reliability of a single sided module and thermally induced plastic strains of a double sided module have been investigated. A local model of the wire b...
The Publisher's final version can be found by following the DOI link.The characteristics of commerci...
This paper is concerned with the thermal models which can physically reflect the heat-flow paths in ...
This paper presents the development of a new packaging technology using silicon carbide (SiC) power ...
Effectively removing dissipated heat from the switching devices enables a higher current carrying ca...
Effectively removing dissipated heat from the switching devices enables a higher current carrying ca...
This paper focuses on the thermal investigation of SiC-based power modules with the purpose to suppo...
Silicon Carbide (SiC) based transistor devices have demonstrated higher efficiency switching operati...
The electrification of drive trains combined with special requirements of the automotive and heavy c...
The electrification of drive trains combined with special requirements of the automotive and heavy c...
This objective of this dissertation research is to investigate a module packaging technology for hig...
The superior electro-thermal properties of SiC power devices permit higher temperature of operation ...
As the development of Silicon (Si) semiconductor technology slows down due to its material limitatio...
The Silicon Carbide (SiC) semiconductor material is playing a fundamental role in the development of...
The characteristics of commercially available silicon carbide power devices and packaging technologi...
Double-sided cooled (DSC) power modules in conjunction with Silicon Carbide (SiC) power devices are ...
The Publisher's final version can be found by following the DOI link.The characteristics of commerci...
This paper is concerned with the thermal models which can physically reflect the heat-flow paths in ...
This paper presents the development of a new packaging technology using silicon carbide (SiC) power ...
Effectively removing dissipated heat from the switching devices enables a higher current carrying ca...
Effectively removing dissipated heat from the switching devices enables a higher current carrying ca...
This paper focuses on the thermal investigation of SiC-based power modules with the purpose to suppo...
Silicon Carbide (SiC) based transistor devices have demonstrated higher efficiency switching operati...
The electrification of drive trains combined with special requirements of the automotive and heavy c...
The electrification of drive trains combined with special requirements of the automotive and heavy c...
This objective of this dissertation research is to investigate a module packaging technology for hig...
The superior electro-thermal properties of SiC power devices permit higher temperature of operation ...
As the development of Silicon (Si) semiconductor technology slows down due to its material limitatio...
The Silicon Carbide (SiC) semiconductor material is playing a fundamental role in the development of...
The characteristics of commercially available silicon carbide power devices and packaging technologi...
Double-sided cooled (DSC) power modules in conjunction with Silicon Carbide (SiC) power devices are ...
The Publisher's final version can be found by following the DOI link.The characteristics of commerci...
This paper is concerned with the thermal models which can physically reflect the heat-flow paths in ...
This paper presents the development of a new packaging technology using silicon carbide (SiC) power ...