Improved Model for Increased Surface Recombination Current in Irradiated Bipolar Junction Transistors
IEEE Transactions on Nuclear Science(2015)
摘要
Current gain degradation in irradiated bipolar junction transistors is primarily due to excess base current caused by enhanced carrier recombination in the emitter-base space-charge region (SCR). Radiation-induced traps at the interface between silicon and the bipolar base oxide facilitate the recombination process primarily above the sensitive emitter-base junction. This leads to an increase in surface recombination current in the SCR, which is a non-ideal component of the BJT's base current characteristic under active bias conditions. In this paper, we derive a precise analytical model for surface recombination current that captures bias dependencies typically omitted from traditional models. This improved model is validated by comparisons to these traditional approaches.
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关键词
bipolar transistors,elemental semiconductors,radiation effects,semiconductor device models,silicon,space charge,surface recombination,BJT,SCR,Si,base current,bipolar base oxide,carrier recombination,current gain degradation,emitter-base space-charge region,irradiated bipolar junction transistors,radiation-induced traps,recombination process,sensitive emitter-base junction,silicon,surface recombination current,Base current,bipolar junction transistors,emitter-base junction,interface traps,radiation effects,recombination,space-charge
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