DocumentCode :
822366
Title :
Endurance Reliability of Multilevel-Cell Flash Memory Using a 
Dual Charge Storage Layer
Author :
Zhang, Gang ; Wan Sik Hwang ; Lee, Seung-Hwan ; Cho, Byung-Jin ; Won Jong Yoo
Volume :
55
Issue :
9
fYear :
2008
Firstpage :
2361
Lastpage :
2369
Abstract :
The mechanisms of programming/erasing (P/E) and endurance degradation have been investigated for multilevel-cell (MLC) Flash memories using a (NROM) or a dual charge storage layer (DCSL). Threshold-voltage -level disturbance is found to be the major endurance degradation factor of NROM-type MLCs, whereas separated charge storage and step-up potential wells give rise to a superior -level controllability for DCSL MLCs. The programmed levels of DCSL MLCs are controlled by the spatial charge distribution, as well as the charge storage capacity of each storage layer, rather than the charge injection. As a result, DCSL MLCs show negligible -level offsets (< 0.2 V) that are maintained throughout the P/E cycles, demonstrating significantly improved endurance reliability compared to NROM-type MLCs.
Keywords :
flash memories; reliability; silicon compounds; zirconium compounds; ZrO2-Si3N4; charge storage capacity; dual charge storage layer; endurance degradation factor; multilevel-cell flash memory; programming-erasing; spatial charge distribution; threshold-voltage-level disturbance; Channel hot electron injection; Controllability; Degradation; Flash memory; Hot carriers; Maintenance; Nonvolatile memory; Potential well; Silicon; Size control; Dual charge storage layer (DCSL); Flash memory; endurance reliability; multiple-level cell (MLC);
fLanguage :
English
Journal_Title :
Electron Devices, IEEE Transactions on
Publisher :
ieee
ISSN :
0018-9383
Type :
jour
DOI :
10.1109/TED.2008.927396
Filename :
4585394
Link To Document :
