Title :
Analysis of failure mechanisms in erased state of sub 20-nm NAND Flash memory
Author :
Kyunghwan Lee ; Duckseoung Kang ; Hyungcheol Shin ; Sangjin Kwon ; Shinhyung Kim ; Yuchul Hwang
Author_Institution :
ISRC, Seoul Nat. Univ., Seoul, South Korea
Abstract :
In this paper, we analyzed the characteristics of dominant failure mechanisms in the erased (ERS) state of sub 20-nm NAND Flash memory with an accurate compact model. As a result, it was observed that various charge loss and charge gain mechanisms are mixed together. While the detrapping and the interface trap recovery (Nit) mechanism contribute to the charge loss, the trap-assisted tunneling (TAT) is the charge gain mechanism in the ERS state due to the negative electric field across tunneling oxide layer. At the less cycled cells, the charge gain is dominant due to the TAT mechanism. However, as increasing the cycling times, the detrapping component becomes larger by trapped carriers and the TAT component gets reduced as the detrapped electrons raise the energy level of floating gate (FG) and energy barrier of tunneling oxide layer. Therefore, the charge loss becomes dominant at increased cycling times.
Keywords :
NAND circuits; failure analysis; flash memories; tunnelling; NAND flash memory; charge gain mechanisms; charge loss; energy barrier; erased state; failure mechanisms; floating gate; interface trap recovery mechanism; negative electric field; trap assisted tunneling; tunneling oxide layer; Electric fields; Electron traps; Energy states; Failure analysis; Flash memories; Temperature measurement; Tunneling; Activation Energy (Ea); Arrhenius model; Charge loss/gain; Criterion of ΔVth; MLC NAND Flash memory; P/E cycling times; Retention Time; failure mechanism;
Conference_Titel :
Solid State Device Research Conference (ESSDERC), 2014 44th European
Conference_Location :
Venice
Print_ISBN :
978-1-4799-4378-4
DOI :
10.1109/ESSDERC.2014.6948757
