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threshold voltageScientist
This paper investigates the power cycling methodology for reliability testing of SiC metal-oxide-semiconductor field-effect transistors (MOSFETs). Dedicated test benches were designed and built to study this issue. The results indicate that power cycling of SiC MOSFETs is affected by threshold voltage instability. A proposal for reducing the influence of the latter is also given. This is done by adding an additional gate pulse to the device under test, in order to achieve an average bias of zero during one cycle of the power cycling experiment
Silicon Carbide (SiC) gate oxide reliability still remains a crucial issue and is amongst the import...
Due to the superior material characteristics of Silicon Carbide (SiC), the use of SiC MOSFETs enable...
International audienceThis paper deals with an overview of Silicon Carbide MOSFET-based power module...
This paper investigates the power cycling methodology for reliability testing of SiC metal-oxide-sem...
This paper investigates the power cycling methodology for reliability testing of SiC metal-oxide-sem...
This paper investigates the power cycling methodology for reliability testing of SiC metal-oxide-sem...
This paper investigates the power cycling methodology for reliability testing of SiC metal-oxide-sem...
As the performance of silicon power semiconductors is close to the theoretical limit, other semicond...
A brief review of the key results and issues regarding the threshold-voltage instability effect in S...
The material properties of SiC make SiC power devices a superior alternative to the conventional Si ...
This article provides a detailed study of performance and reliability issues and trade-offs in silic...
International audienceSilicon-Carbide (SiC) technology presents several advantages over silicon for ...
Silicon Carbide MOSFETs are now widely available and have frequently been demonstrated to offer nume...
Silicon carbide MOSFETs are capable of improving the efficiency, size, weight and cost of power ele...
This paper briefly introduces various aspects which should be considered when implementing Silicon C...
Silicon Carbide (SiC) gate oxide reliability still remains a crucial issue and is amongst the import...
Due to the superior material characteristics of Silicon Carbide (SiC), the use of SiC MOSFETs enable...
International audienceThis paper deals with an overview of Silicon Carbide MOSFET-based power module...
This paper investigates the power cycling methodology for reliability testing of SiC metal-oxide-sem...
This paper investigates the power cycling methodology for reliability testing of SiC metal-oxide-sem...
This paper investigates the power cycling methodology for reliability testing of SiC metal-oxide-sem...
This paper investigates the power cycling methodology for reliability testing of SiC metal-oxide-sem...
As the performance of silicon power semiconductors is close to the theoretical limit, other semicond...
A brief review of the key results and issues regarding the threshold-voltage instability effect in S...
The material properties of SiC make SiC power devices a superior alternative to the conventional Si ...
This article provides a detailed study of performance and reliability issues and trade-offs in silic...
International audienceSilicon-Carbide (SiC) technology presents several advantages over silicon for ...
Silicon Carbide MOSFETs are now widely available and have frequently been demonstrated to offer nume...
Silicon carbide MOSFETs are capable of improving the efficiency, size, weight and cost of power ele...
This paper briefly introduces various aspects which should be considered when implementing Silicon C...
Silicon Carbide (SiC) gate oxide reliability still remains a crucial issue and is amongst the import...
Due to the superior material characteristics of Silicon Carbide (SiC), the use of SiC MOSFETs enable...
International audienceThis paper deals with an overview of Silicon Carbide MOSFET-based power module...
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