Abstract

In multilevel flash memories, the threshold voltages of the memory cells should be controlled precisely. This paper describes how in a conventional NAND flash memory, the threshold voltages of the memory cells fluctuate due to array noise during the bit-by-bit program verify operation, and as a result, the threshold voltage distribution becomes wider. This paper describes a new array architecture, "A double-level-V/sub th/ select gate array architecture" to eliminate the array noise, together with a reduction of the cell area. The array noise is mainly caused by interbitline capacitive coupling noise and by the high resistance of the diffused source-line. The threshold voltage fluctuation can be as much as 0.7 V in a conventional array. In the proposed array, bitlines are alternately selected, and the unselected bitlines are used as low resistance source-lines. Moreover, the unselected bitlines form a shield between the neighboring selected bitlines. As a result, the array noise is strongly suppressed. The threshold voltage fluctuation is estimated to be as small as 0.03 V in the proposed array and a reliable operation of a multilevel NAND flash memory can be realized.