Modeling of [V_{rm th}] Shift in @@inand@ Flash-Memory Cell Device Considering Crosstalk and Short-Channel Effects

Modeling of [V_{rm th}] Shift in @@inand@ Flash-Memory Cell Device Considering Crosstalk and Short-Channel Effects

A threshold-voltage (V@@dth@) shift of sub-100-nm NAND flash-memory cell transistors was modeled systematically, and the modeling was verified by comparing with the data from measurement and 3-D device simulation. The V@@dth@ shift of the NAND flash-memory cell was investigated by changing parameter...

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Veröffentlicht in:IEEE transactions on electron devices 2008-04, Vol.55 (4), p.1020-1026
Hauptverfasser: Jung, Sang-Goo, Lee, Keun-Woo, Kim, Ki-Seog, Shin, Seung-Woo, Lee, Seaung-Suk, Om, Jae-Chul, Bae, Gi-Hyun, Lee, Jong-Ho
Format: Artikel
Sprache:eng
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Zusammenfassung:A threshold-voltage (V@@dth@) shift of sub-100-nm NAND flash-memory cell transistors was modeled systematically, and the modeling was verified by comparing with the data from measurement and 3-D device simulation. The V@@dth@ shift of the NAND flash-memory cell was investigated by changing parameters such as gate length, width, drain voltage, dielectric material between cells, space between cells, lightly doped-drain depth, and adjacent- cell bias. The proposed model covers two dominant device physics: capacitance coupling effect between adjacent cells and short-channel effect. Our model showed an accurate prediction of the V@@dth@ shift of NAND flash-memory array and a good agreement with the data from simulation and measurement.
ISSN:0018-9383
DOI:10.1109/TED.2008.916769