Novel Negative Vt Shift Phenomenon of Program-Inhibit Cell in \hboxX\hboxX\hbox\hbox Self-Aligned STI nand Flash Memory

Novel Negative Vt Shift Phenomenon of Program-Inhibit Cell in \hboxX\hboxX\hbox\hbox Self-Aligned STI nand Flash Memory

A novel program-inhibit phenomenon of "negative" cell Vt shift has been investigated for the first time in 2 X - 3 X -nm self-aligned shallow trench isolation nand Flash memory cells. The negative Vt shift is caused in an inhibit cell when along-word-line adjacent cell is programming. The...

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Bibliographic Details
Published in:IEEE transactions on electron devices Vol. 59; no. 11; pp. 2950 - 2955
Main Authors: Aritome, S., Soonok Seo, Hyung-Seok Kim, Sung-Kye Park, Seok-Kiu Lee, Sungjoo Hong
Format: Journal Article
Language:English
Published: IEEE 01-11-2012
Subjects:
Charge carrier processes
Couplings
Flash memory
FN tunneling
Hot carriers
program disturb
Programming
self-aligned shallow trench isolation (STI) (SA-STI)
Substrates
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Summary:A novel program-inhibit phenomenon of "negative" cell Vt shift has been investigated for the first time in 2 X - 3 X -nm self-aligned shallow trench isolation nand Flash memory cells. The negative Vt shift is caused in an inhibit cell when along-word-line adjacent cell is programming. The magnitude of the negative shift becomes larger in the case of higher program voltage ( V PGM ), lower field oxide height, slower program speed of the adjacent cell, and high Vt of victim cell. The experimental results suggest that the mechanism of negative Vt shift is attributed to hot holes that are generated by FN electron injection from channel/junction to the control gate. This phenomenon will become worse with cell size scaling since hot hole generation is increased by increasing the electron injection due to narrower floating gate space. Therefore, this negative Vt shift phenomenon is one of the new scaling limiters of nand Flash memory cell, which needs to be managed for 2 and 3 b/cell in 2 X nm and beyond nand Flash memories.
ISSN:0018-9383
1557-9646
DOI:10.1109/TED.2012.2212198