Abstract

An unintentional channel hot carrier injection phenomenon is reported for flash memory cells. The injection occurs near the source metallurgical junction during electrical erase and is caused by subthreshold leakage current between source and floating drains. This mechanism is initiated by a minority carrier population (electrons) which is generated by impact ionization around the source junction and later collected by the floating drains. Subsequently, when the floating gate potential approaches threshold voltage, these collected electrons drift from the drain toward the source. When they reach the source junction depletion region, they experience carrier multiplications and some hot carriers are injected onto the floating gate. The injected carriers can be either hot holes or hot electrons depending on the magnitude of the floating gate potential. This mechanism affects the final threshold voltage distribution of flash memories, especially when the electric field across the tunnel oxide is low.

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