Fail mechanism of program disturbance for erase cells VT positive shift in NAND flash technology

Chunmei Zou, Y. Zhao, W. Chien, Junyao Tang
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引用次数: 1

Abstract

Program disturbance is a major intrinsic reliability concern on NAND flash. In this paper, we present that NAND flash E/W (Erase/Write) cycle failures induced by program disturbance for erase cells VT (Threshold Voltage) positive shift. The root cause of program disturbance is the old process of gate re-oxidation issue, which results in ILD (Intra-Layer Dielectric) voids, then Ni fills in the ILD voids and induces the lateral E-field increase between WL's. Interface traps and electrons generated by GIDL (Gate Induce Drain Leakage) are accelerated by the lateral E-field and subsequently injected into the erase cell transistors by HCI effect, therefore erase cells VT positive shift, and program disturbance occurs. The disturbance will get worse than fresh sample as interface traps and couple voltage of WLs increasing after E/W cycles. A new process of gate re-oxidation to depress the program disturbance and enhance NAND Flash E/W cycles performance is provided.
NAND闪存技术中擦除细胞VT正移位程序干扰失效机制
程序干扰是NAND闪存的主要内在可靠性问题。在本文中,我们提出了NAND闪存E/W(擦除/写)周期失效由程序干扰引起的擦除单元VT(阈值电压)正移位。程序干扰的根本原因是栅极再氧化问题的旧过程,它导致ILD (Intra-Layer Dielectric)空洞,然后Ni填充ILD空洞,导致WL之间的横向电场增大。由GIDL (Gate感应漏极)产生的界面陷阱和电子被横向电场加速,随后通过HCI效应注入到擦除细胞晶体管中,因此擦除细胞VT正移位,程序发生干扰。在E/W循环后,由于界面陷阱和耦合电压的增加,干扰会比新鲜样品更严重。提出了一种新的栅极再氧化工艺,以降低程序干扰,提高NAND闪存E/W循环性能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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