Add to ORKGPressure contact packages have demonstrated an improved reliability for silicon devices due to the elimination of the weak elements of the packaging, namely wirebonds and solder. This packaging approach has not yet been widely studied for SiC devices, however, it is of high interest for applications like HVDC or rail traction, where the wide bandgap properties of SiC devices can be fully exploited and high reliability is critical. Current IGBT press-pack modules use Si PiN diodes for enabling reverse conduction, however, the use of SiC Schottky diodes would be beneficial given their better characteristics including low switching losses and lower zero temperature coefficient (ZTC) for electrothermal stability of diodes in parallel. A prototy...
This paper details a modeling and experimental assessment of the packaging process for a silicon car...
Silicon carbide (SiC) devices have been adopted to push the boundaries further in terms of power den...
This paper presents the development of a new packaging technology using silicon carbide (SiC) power ...
Pressure contact packages have demonstrated an improved reliability for silicon devices due to the e...
Pressure contact packages have demonstrated an improved reliability for silicon devices due to the e...
The thermomechanical reliability of SiC power devices and modules is increasingly becoming of intere...
The thermomechanical reliability of SiC power devices and modules is increasingly becoming of intere...
The thermomechanical reliability of SiC power devices and modules is increasingly becoming of intere...
SiC is a wide bandgap semiconductor with better electrothermal properties than silicon, including hi...
SiC is a wide bandgap semiconductor with better electrothermal properties than silicon, including hi...
The thermomechanical reliability of SiC power devices and modules is increasingly becoming of intere...
The thermomechanical reliability of SiC power devices and modules is increasingly becoming of intere...
SiC is a wide bandgap semiconductor with better electrothermal properties than silicon, including hi...
SiC is a wide bandgap semiconductor with better electrothermal properties than silicon, including hi...
Fast switching SiC Schottky diodes are known to exhibit significant output oscillations and electrom...
This paper details a modeling and experimental assessment of the packaging process for a silicon car...
Silicon carbide (SiC) devices have been adopted to push the boundaries further in terms of power den...
This paper presents the development of a new packaging technology using silicon carbide (SiC) power ...
Pressure contact packages have demonstrated an improved reliability for silicon devices due to the e...
Pressure contact packages have demonstrated an improved reliability for silicon devices due to the e...
The thermomechanical reliability of SiC power devices and modules is increasingly becoming of intere...
The thermomechanical reliability of SiC power devices and modules is increasingly becoming of intere...
The thermomechanical reliability of SiC power devices and modules is increasingly becoming of intere...
SiC is a wide bandgap semiconductor with better electrothermal properties than silicon, including hi...
SiC is a wide bandgap semiconductor with better electrothermal properties than silicon, including hi...
The thermomechanical reliability of SiC power devices and modules is increasingly becoming of intere...
The thermomechanical reliability of SiC power devices and modules is increasingly becoming of intere...
SiC is a wide bandgap semiconductor with better electrothermal properties than silicon, including hi...
SiC is a wide bandgap semiconductor with better electrothermal properties than silicon, including hi...
Fast switching SiC Schottky diodes are known to exhibit significant output oscillations and electrom...
This paper details a modeling and experimental assessment of the packaging process for a silicon car...
Silicon carbide (SiC) devices have been adopted to push the boundaries further in terms of power den...
This paper presents the development of a new packaging technology using silicon carbide (SiC) power ...