International audienceTemperature dependant properties of wide band gap semiconductors have been used to calculate theoretical specific on-resistance, breakdown voltage, and thermal run away temperature in SiC, GaN and diamond, and Si vertical power devices for comparison. It appears mainly that diamond is interesting for high power devices for high temperature applications. At room temperature, diamond power devices should be superior to SiC only for voltage higher than 30-40 kV, due to the high energy activation of the dopants
International audienceUltra wide bandgap (UWBG) materials such as monocrystalline diamond exhibit th...
Focused on high-temperature (200 °C) operation, this paper seeks to provide insight into state-of-th...
The physical and chemical properties of wide-band-gap semiconductors make these materials an ideal w...
International audienceTemperature dependant properties of wide band gap semiconductors have been use...
International audienceThis paper proposes a system-level comparison between diamond and SiC power de...
With its remarkable electro-thermal properties such as the highest known thermal conductivity (~22 W...
With its remarkable electro-thermal properties such as the highest known thermal conductivity (~22W/...
This article provides a comprehensive review of wide and ultrawide bandgap power electronic semicond...
International audienceUltra wide bandgap (UWBG) materials such as monocrystalline Diamond are forese...
International audienceThe development of high voltage devices is a great challenge. At least, railwa...
Gallium nitride high electron mobility transistors (GaN HEMTs) have gained popularity in recent year...
International audienceIn power electronics, the active devices are at the core of power converters. ...
The physical and chemical properties of wide bandgap semiconductors silicon carbide and diamond make...
This thesis takes a first step in investigating the design and feasibility of a high temperature pow...
The main objective of this final year project is to do thermal analysis of the high-voltage AlGaN/Ga...
International audienceUltra wide bandgap (UWBG) materials such as monocrystalline diamond exhibit th...
Focused on high-temperature (200 °C) operation, this paper seeks to provide insight into state-of-th...
The physical and chemical properties of wide-band-gap semiconductors make these materials an ideal w...
International audienceTemperature dependant properties of wide band gap semiconductors have been use...
International audienceThis paper proposes a system-level comparison between diamond and SiC power de...
With its remarkable electro-thermal properties such as the highest known thermal conductivity (~22 W...
With its remarkable electro-thermal properties such as the highest known thermal conductivity (~22W/...
This article provides a comprehensive review of wide and ultrawide bandgap power electronic semicond...
International audienceUltra wide bandgap (UWBG) materials such as monocrystalline Diamond are forese...
International audienceThe development of high voltage devices is a great challenge. At least, railwa...
Gallium nitride high electron mobility transistors (GaN HEMTs) have gained popularity in recent year...
International audienceIn power electronics, the active devices are at the core of power converters. ...
The physical and chemical properties of wide bandgap semiconductors silicon carbide and diamond make...
This thesis takes a first step in investigating the design and feasibility of a high temperature pow...
The main objective of this final year project is to do thermal analysis of the high-voltage AlGaN/Ga...
International audienceUltra wide bandgap (UWBG) materials such as monocrystalline diamond exhibit th...
Focused on high-temperature (200 °C) operation, this paper seeks to provide insight into state-of-th...
The physical and chemical properties of wide-band-gap semiconductors make these materials an ideal w...