The Influence of Temperature Storage on Threshold Voltage Stability for SiC VDMOSFET

Abstract

Even with SiC power MOSFETs released into the commercial market, the threshold voltage instability caused by near interface states is still an attracting issue, which is a major obstacle to further improving the device performance. In this paper, the effects of temperature storage on the threshold voltage stability of n-channel 4H-SiC VDMOSFET are studied. It is found that the capture of hole traps is dominant during the long-term temperature storage at 425 K, causing a considerable negative shift of threshold voltage. In view of the influence of temperature storage, the positive and negative drift trends of threshold voltage slow down during the gate-bias stress measurement. And the ∆VTH, the difference between the threshold voltages recorded after positive and negative gate-bias stress in the same duration, also grows slowly with the increasing stress duration. Finally, some suggestions for improving the threshold reliability of n-channel SiC VDMOSFETs are presented.