A 117-mm/sup 2/ 3.3-V only 128-Mb multilevel NAND flash memory for mass storage applications

Tae-Sung Jung Tae-Sung Jung,Kang-Deog Suh Kang-Deog Suh,Jhang-Rae Kim Jhang-Rae Kim,Kee-Tae Park Kee-Tae Park,Young-Joon Choi Young-Joon Choi,Jong-Wook Park Jong-Wook Park,Yong-Nam Koh Yong-Nam Koh,Hyung-Kyu Lim Hyung-Kyu Lim,Jin-Ki Kim Jin-Ki Kim,Jeong-Hyong Yi Jeong-Hyong Yi,Jung-Hoon Park Jung-Hoon Park,Byung-Hoon Suh Byung-Hoon Suh,Young-Ho Lim Young-Ho Lim,Ki-Jong Lee Ki-Jong Lee

doi:10.1109/jssc.1996.542301

Tae-Sung Jung Tae-Sung Jung, Kang-Deog Suh Kang-Deog Suh + Show 12 more

https://doi.org/10.1109/jssc.1996.542301

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Abstract

For a quantum step in further cost reduction, the multilevel cell concept has been combined with the NAND flash memory. Key requirements of mass storage, low cost, and high serial access throughput have been achieved by sacrificing fast random access performance. This paper describes a 128-Mb multilevel NAND flash memory storing 2 b per cell. Multilevel storage is achieved through tight cell threshold voltage distribution of 0.4 V and is made practical by significantly reducing program disturbance by using a local self-boosting scheme. An intelligent page buffer enables cell-by-cell and state-by-state program and inhibit operations. A read throughput of 14.0 MB/s and a program throughput of 0.5 MB/s are achieved. The device has been fabricated with 0.4-/spl mu/m CMOS technology, resulting in a 117 mm/sup 2/ die size and a 1.1 /spl mu/m/sup 2/ effective cell size.

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