Title :
A Novel nand Flash Memory With Asymmetric S/D Structure Using Fringe-Field-Induced Inversion Layer
Author :
Park, Ki-Tae ; Sel, Jong-Sun ; Choi, Jungdal ; Song, Yunheub ; Kim, Changhyun ; Kim, Kinam
Author_Institution :
Samsung Electron. Corp., Hwasung
Abstract :
A NAND flash memory device for sub-40-nm-node technology and beyond utilizing an asymmetric source/drain (S/D) structure to suppress short-channel effects and improve the th distribution is presented in this paper. The asymmetric S/D structure consists of a diffused junction and inversion layer which is induced by the fringe field of the gate bias voltage during NAND operation. To reduce the area overhead caused by the select transistors, a 64-cell NAND string, which is twice the number of cells used in conventional NAND devices, is also evaluated. The proposed NAND memory device is demonstrated by a 32-Mb test chip which is fabricated using a 60-nm NAND flash technology. It exhibits subthreshold slope characteristics that improved by 37% and a programmed th distribution width that improved by 35% while almost maintaining multiple-level-cell NAND flash performance requirements.
Keywords :
NAND circuits; flash memories; NAND flash memory; NAND memory device; gate bias voltage; short-channel effects; source/drain structure; transistors; Cellular phones; Consumer electronics; Doping; Flash memory; Interference; Nonvolatile memory; Parasitic capacitance; Research and development; Testing; Voltage; Asymmetric source/drain (S/D); fringe field; inversion layer; nand Flash; short-channel effect;
Journal_Title :
Electron Devices, IEEE Transactions on
DOI :
10.1109/TED.2007.911088
