Mark Winston

A 90-ns one-million erase/program cycle 1-Mbit flash memory

Describes the design and performance of a 245-mil/sup 2/ 1-Mbit (128K*8) flash memory targeted for in-system reprogrammable applications. Developed from a 1.0- mu m EPROM-base technology, the 15.2- mu m/sup 2/ single-transistor EPROM tunnel oxide (ETOX) cell requires only 42 percent of the area required by the previous 1.5- mu m device. One of the most significant aspects of this 1-Mbit flash memory is the one-million erase/program cycle capability. The 1-Mbit memory exhibits 90-ns read access time while the reprogramming performance gives a 900-ms array erase time and a 10- mu s/byte programming rate. Ample erase and program margins through one-million erase/program cycles are guaranteed by the internal verify circuits. Column redundancy is implemented with the utilization of flash memory cells to store repaired addresses. >

An in-system reprogrammable 32 K*8 CMOS flash memory

The authors describe the design and performance of a 192-mil/sup 2/ 256 K (32 K*8) flash memory targeted for in-system reprogrammable applications. Developed from a 1.5 mu m EPROM base technology with a one-transistor 6*6- mu m/sup 2/ cell, the device electrically erases all cells in the array matrix in 200 ms and electrically programs at the rate of 100 mu s/byte typical. The read performance is equivalent to comparable-density CMOS EPROM devices with a chip-enable access time of 110 ns at 30-mA active current consumption. A command-port interface facilitates microprocessor-controlled reprogramming capability. Device reliability has been increased over byte-alterable EEPROMs by reducing the program power supply to 12 V. Cycling endurance experiments have demonstrated that the device is capable of more than 10000 erase/program cycles. >