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Masamichi TANABE Hiromi SHIMAMOTO Takahiro ONAI Katsuyoshi WASHIO
A simplified distribution base resistance model (SDM) is proposed to identify each component of the base resistance and determine the dominant. This model divides the parasitic base resistance into one straight path and two surrounding paths. It is clarified that the link base resistance is dominant in a short emitter and the surrounding polysilicon base electrode resistance is dominant in a long emitter. In the SDM, the distance of the link base is reduced to half; with metal silicide as the extrinsic base electrode, the base resistance will be reduced to 75%.
Hiromi SHIMAMOTO Masamichi TANABE Takahiro ONAI Katsuyoshi WASHIO Tohru NAKAMURA
The degradation of I-V characteristics under constant emitter-base reverse voltage stress in advanced self-aligned bipolar transistors was analyzed. Experimental analyses have been taken the stress field effect into account when predicting hot-carrier degradation. These analyses showed that base current starts to increase when the reverse voltage stress is about 3 V. The dependence of the base current change on reverse voltages of more than 3 V was also investigated experimentally, and equations expressing hot-carrier degradation in terms of the exponential dependence of excess base current on both reverse stress voltage and stress-enhancing voltage related to emitter-base breakdown voltage were derived.