A 16-Mb flash EEPROM has been developed based on the 0.6-µm triple-well double-poly-Si single-metal CMOS technology. A compact row decoder circuit for a negative gate biased erase operation has been designed to obtain the sector erase operation. A self-data-refresh scheme has been developed to overcome the drain-disturb problem for unselected sector cells. A self-convergence method after erasure is applied in this device to overcome the overerase problem that causes read operation failure. Both the self-data-refresh operation and the self-convergence method are verified to be involved in the autoerase operation. Internal voltage generators independent of the external voltage supply and temperature has been developed. The cell size is 2.0 µm1.7 µm, and the die size has resulted in 7.7 mm17.32 mm.

A new, simple test circuit for measuring the threshold voltage distribution of flash EEPROM cell transistors is described. This circuit makes it possible to perform a reliability test for a large number of memory cell transistors with easy static operation because it reduces the measuring time drastically. In addition, this circuit can measure the highest and lowest thresh-old voltages of memory cell transistors easily. This method is suitable for performing the reliability test, such as program/erase endurance test and data retention test, for a large number of flash memory cell transistors. The usefulness of this new test circuit has been confirmed by applying it to 64 Kbit NAND-type flash memory cell array.