R. Stahlbush, K. N. A. Mahakik, A. Lelis, R. Green
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引用次数: 13
摘要
随着碳化硅功率器件进入商业电力电子市场,人们对其可靠性的各个方面都有浓厚的兴趣。本文讨论了基面位错(bpd)对mosfet性能的影响。在MOSFET体二极管的正向偏置过程中,电子-空穴复合会导致bpd发生故障,并导致漂移层的堆叠故障,从而降低MOSFET的性能。随着堆积故障的增加,MOSFET漂移层的导通电导率降低,漂移层的过漏增大,体二极管的正向电压增大。商用1200 V mosfet的体电流为5 a或10 a。第一代商用mosfet在几分钟的应力时间内表现出明显的退化,而最近的mosfet在超过5小时的应力时间内没有表现出退化。
Effects of Basal Plane Dislocations on SiC Power Device Reliability
As silicon carbide power devices enter the commercial power electronics market there is a strong interest in all aspects of their reliability. This work discusses the degradation of MOSFETs due to basal plane dislocations (BPDs). During the forward bias of the MOSFET body diode, electron-hole recombination causes BPDs to fault and the resulting stacking faults in the drift layer degrade the MOSFET. As the stacking faults grow, the on-state conductivity of the MOSFET drift layer decreases, the off-state leakage of the drift layer increases, and the forward voltage of the body diode increases. Commercial 1200 V MOSFETs were stressed with a body current of 5 A or 10 A. The first generation of commercial MOSFETs showed significant degradation within minutes of stress time, whereas more recent MOSFETs did not show degradation for over 5 hours of stress time.
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