Affiliation:
1. Cree, Inc.
2. Cree Research, Inc.
3. Cree, Incorporation
4. Cree Incorporation
5. U.S. Army Research Laboratory
6. U.S. Naval Research Laboratory
Abstract
SiC BJTs show instability in the I-V characteristics after as little as 15 minutes of
operation. The current gain reduces, the on-resistance in saturation increases, and the slope of the
output characteristics in the active region increases. This degradation in the I-V characteristics
continues with many hours of operation. It is speculated that this phenomenon is caused by the
growth of stacking faults from certain basal plane dislocations within the base layer of the SiC BJT.
Stacking fault growth within the base layer is observed by light emission imaging. The energy for
this expansion of the stacking fault comes from the electron-hole recombination in the forward
biased base-emitter junction. This results in reduction of the effective minority carrier lifetime,
increasing the electron-hole recombination in the base in the immediate vicinity of the stacking
fault, leading to a reduction in the current gain. It should be noted that this explanation is only a
suggestion with no conclusive proof at this stage.
Publisher
Trans Tech Publications, Ltd.
Subject
Mechanical Engineering,Mechanics of Materials,Condensed Matter Physics,General Materials Science
Cited by
19 articles.
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