Add to ORKGThe development of very fast switching semiconductors based on silicon carbide (SiC) offers many opportunities. Switching speed and pulse frequency can be increased significantly and passive components can be reduced in size and cost. One requirement to make use of these benefits is to package the semiconductors in a way that reduces EMI already at its origin. The embedding technology gives the opportunity to reduce parasitic inductances significantly. When the low side chip of a half bridge is attached face-down, the output capacitance is almost eliminated and DC+ and DC-capacitances against heat sink are symmetrized. This paper focusses on how the module needs to be designed to meet the needs like thermal aspects and manufacturing process...
High-density packaging of fast-switching power semiconductors typically requires low parasitic induc...
The future power electronic system trends are: higher efficiency, higher power density, higher opera...
Silicon carbide (SiC) devices have been adopted to push the boundaries further in terms of power den...
Silicon Carbide (SiC) MOSFETs offer excellent properties as switches in power converters. However, t...
The switching speed of power semiconductors has reached levels where conventional semiconductors pac...
The superior electrical characteristics of silicon carbide (SiC) semiconductor enable converter oper...
Parasitic inductances caused by the package of semiconductor devices in power converters, are limiti...
The switching speed of power semiconductors has reached levels where conventional semiconductors pac...
Parasitic inductances caused by the package of semiconductor devices in power converters, are limiti...
Parasitic inductances caused by the package of semiconductor devices in power converters, are limiti...
International audienceA new 3D power module dedicated for SiCMOSFET is presented based on printed ci...
Compact, light-weight, efficient and reliable power converters are fundamental for the future of Mor...
Silicon carbide (SiC) devices have been adopted to push the boundaries further in terms of power den...
The high-voltage SiC MOSFET power modules enable high-frequency and high-efficiency power conversion...
The switching speed of power semiconductors has reached levels where conventional semiconductors pac...
High-density packaging of fast-switching power semiconductors typically requires low parasitic induc...
The future power electronic system trends are: higher efficiency, higher power density, higher opera...
Silicon carbide (SiC) devices have been adopted to push the boundaries further in terms of power den...
Silicon Carbide (SiC) MOSFETs offer excellent properties as switches in power converters. However, t...
The switching speed of power semiconductors has reached levels where conventional semiconductors pac...
The superior electrical characteristics of silicon carbide (SiC) semiconductor enable converter oper...
Parasitic inductances caused by the package of semiconductor devices in power converters, are limiti...
The switching speed of power semiconductors has reached levels where conventional semiconductors pac...
Parasitic inductances caused by the package of semiconductor devices in power converters, are limiti...
Parasitic inductances caused by the package of semiconductor devices in power converters, are limiti...
International audienceA new 3D power module dedicated for SiCMOSFET is presented based on printed ci...
Compact, light-weight, efficient and reliable power converters are fundamental for the future of Mor...
Silicon carbide (SiC) devices have been adopted to push the boundaries further in terms of power den...
The high-voltage SiC MOSFET power modules enable high-frequency and high-efficiency power conversion...
The switching speed of power semiconductors has reached levels where conventional semiconductors pac...
High-density packaging of fast-switching power semiconductors typically requires low parasitic induc...
The future power electronic system trends are: higher efficiency, higher power density, higher opera...
Silicon carbide (SiC) devices have been adopted to push the boundaries further in terms of power den...