A 0.67 /spl mu/m/sup 2/ self-aligned shallow trench isolation cell (SA-STI cell) for 3 V-only 256 Mbit NAND EEPROMs

An ultra high-density NAND-structured memory cell, using a new Self-Aligned Shallow Trench Isolation (SA-STI) technology, has been developed for a high performance and low bit cost 256 Mbit flash EEPROM. The SA-STI technology results in an extremely small cell size of 0.67 /spl mu/m/sup 2/ per bit, 67% of the smallest flash memory cell reported so far, by using a 0.35 /spl mu/m technology. The key technologies to realize a small cell size are (1) 0.4 um width Shallow Trench Isolation (STI) to isolate neighboring bits and (2) a floating gate that is self-aligned with the STI, eliminating the floating-gate wings. Even though the floating-gate wings are eliminated, a high coupling ratio of 0.65 can be obtained by using the side-walls of the floating gate to increase the coupling ratio. Using this self-aligned structure. A reliable tunnel oxide can be obtained because the floating gate does not overlap the trench corners, so enhanced tunneling at the trench corner is avoided. Therefore, the SA-STI cell combines a low bit cost with a high performance and a high reliability, such as the fast programming (0.2 /spl mu/sec/byte), fast erasing (2 msec), good write/erase endurance (>10/sup 6/ cycles), and excellent read disturb characteristics(>10 years). This paper describes the process technologies and the device performance of the SA-STI cell, which can be used to realize NAND EEPROMs of 256 Mbit and beyond.<>