Add to ORKGSilicon carbide (SiC), as one of the wide bandgap semiconductors, is a promising material for next-generation power devices due to its high critical electric field, high thermal conductivity, and high saturated electron drift velocity properties. Extensive studies have been focused their electrical characterizations. Failure mechanisms of SiC devices, however, have not been fully explored. In this work the failure mechanisms of SiC power devices, including Schottky diodes, power MOSFETs and IGBTs, are investigated. The characteristics of SiC Schottky diodes have been investigated and simulated based on the drift-diffusion model. Interface state degradation has been identified as the mechanism responsible for the non-catastrophic failur...
International audienceWith relevance to their short-circuit (SC) failure mode, silicon carbide (SiC)...
The reliability of the SiC MOSFET has always been a factor hindering the device application, especia...
This paper investigates the physics of device failure during avalanche mode conduction for SiC MOSFE...
International audienceIn every new technology, the understanding of its failure mechanism is essenti...
As the performance of silicon power semiconductors is close to the theoretical limit, other semicond...
This paper investigates the failure mechanism of SiC power MOSFETs during avalanche breakdown under ...
The behavior of Silicon Carbide Power MOSFETs under stressful short circuit conditions is investigat...
Heavy ion-induced single-event burnout (SEB) is investigated in high-voltage silicon carbide power M...
Abstract The single event burnout (SEB) effects of SiC power MOSFET are investigated by irradiations...
This paper briefly introduces various aspects which should be considered when implementing Silicon C...
The behavior of silicon carbide (SiC) power MOSFETs under stressful short-circuit (SC) conditions is...
In this study, the experimental evaluation and numerical analysis of short-circuit mechanisms of 120...
Short circuit (SC) operation can lead to thermal runaway failures of SiC MOSFETs associated with lea...
International audienceIn high voltage direct current (HVDC) converters, a series connection of semic...
Silicon carbide MOSFETs are capable of improving the efficiency, size, weight and cost of power ele...
International audienceWith relevance to their short-circuit (SC) failure mode, silicon carbide (SiC)...
The reliability of the SiC MOSFET has always been a factor hindering the device application, especia...
This paper investigates the physics of device failure during avalanche mode conduction for SiC MOSFE...
International audienceIn every new technology, the understanding of its failure mechanism is essenti...
As the performance of silicon power semiconductors is close to the theoretical limit, other semicond...
This paper investigates the failure mechanism of SiC power MOSFETs during avalanche breakdown under ...
The behavior of Silicon Carbide Power MOSFETs under stressful short circuit conditions is investigat...
Heavy ion-induced single-event burnout (SEB) is investigated in high-voltage silicon carbide power M...
Abstract The single event burnout (SEB) effects of SiC power MOSFET are investigated by irradiations...
This paper briefly introduces various aspects which should be considered when implementing Silicon C...
The behavior of silicon carbide (SiC) power MOSFETs under stressful short-circuit (SC) conditions is...
In this study, the experimental evaluation and numerical analysis of short-circuit mechanisms of 120...
Short circuit (SC) operation can lead to thermal runaway failures of SiC MOSFETs associated with lea...
International audienceIn high voltage direct current (HVDC) converters, a series connection of semic...
Silicon carbide MOSFETs are capable of improving the efficiency, size, weight and cost of power ele...
International audienceWith relevance to their short-circuit (SC) failure mode, silicon carbide (SiC)...
The reliability of the SiC MOSFET has always been a factor hindering the device application, especia...
This paper investigates the physics of device failure during avalanche mode conduction for SiC MOSFE...