Second-Bit-Effect-Free Multibit-Cell Flash Memory Using \hbox \hbox/\hbox Split Charge Trapping Layer

Second-Bit-Effect-Free Multibit-Cell Flash Memory Using \hbox \hbox/\hbox Split Charge Trapping Layer

In this paper, a Si 3 N 4 /ZrO 2 split charge trapping layer (SCTL) is proposed for multibit-cell Flash memory. The complementary potential wells of Si 3 N 4 /ZrO 2 storage nodes enable independent node control when the Fowler-Nordheim (F-N) method is applied for programming/erasing (P/E). Experimen...

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Veröffentlicht in:IEEE transactions on electron devices 2009-09, Vol.56 (9), p.1966-1973
Hauptverfasser: Zhang, Gang, Lee, Seung-Hwan, Ra, Chang Ho, Li, Hua-Min, Yoo, Won Jong
Format: Artikel
Sprache:eng
Schlagworte:
Charge carrier processes
Flash memory
hbox{Si}_{3}\hbox{N}_{4}/\hbox{ZrO}_{2}
Logic gates
Partial discharges
Programming
Scalability
second-bit effect
split charge trapping layer (SCTL)
Transient analysis
Tunneling
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Zusammenfassung:In this paper, a Si 3 N 4 /ZrO 2 split charge trapping layer (SCTL) is proposed for multibit-cell Flash memory. The complementary potential wells of Si 3 N 4 /ZrO 2 storage nodes enable independent node control when the Fowler-Nordheim (F-N) method is applied for programming/erasing (P/E). Experiment and simulation results suggest that the 2-bit (2-b) charge storage is accomplished by physical data node separation for the SCTL rather than charge injection control. The well-confined charge storages suppress the second-bit effect, enabling excellent 2-b data clearance for short-channel SCTL devices. It was found that the remaining memory windows after 10 5 s decrease, dependent on the difference of the trap properties between Si 3 N 4 and ZrO 2 .
ISSN:0018-9383
1557-9646
DOI:10.1109/TED.2009.2026090