A Study of Gate-Sensing and Channel-Sensing (GSCS) Transient Analysis Method Part II: Study of the Intra-Nitride Behaviors and Reliability of SONOS-Type Devices

For the first time, we can directly investigate the charge transport and intra-nitride behaviors of SONOS-type devices by exploiting the gate-sensing and channel-sensing (GSCS) method. Our results clearly indicate that for electron injection (+FN program), the electron centroid migrates from the bottom toward the nitride center, whereas for hole injection (-FN erase), holes first recombine with the bottom electrons and then gradually move upward. For the electron de-trapping processes under -V_G stressing, the trapped electrons de-trap first from the bottom portion of nitride. We also develop a method to distinguish the electron de-trapping and hole injection erasing methods by comparing the erasing current density (J) versus the bottom oxide electric field (E). At short-term high-temperature baking, the electrons move from the top portion toward the bottom portion, and this intra-nitride transport becomes more significant for a thicker nitride. On the other hand, after long-term baking, the charge loss mainly comes from the bottom portion of nitride.