Anaylysis of Mechanism About Data Retention Characteristic in Tanos Structure

Ji-Seok Lee, I. Yun
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Abstract

Recently, as the data usage increases, the memory usage for storing the data also increases. A lot of researches have been done to reduce the production cost of the solid state drive (SSD) using NAND structure, which is widely used as a storage device along with the hard disk drive (HDD). One of them is to change the NAND structure from 2-D to 3-D by using the charge trap flash (CTF) technology, which is using nitride material (i.e., TANOS) in the floating gate instead of the conventional poly-silicon (i.e., SONOS). As the structure and material are changed, the characteristics of the device are also changed. One of the important functions of memory is the ability to preserve the data. Thus, in this paper the long-term evaluation of TANOS structure is investigated and the prediction of retention characteristic can be evaluated through the accelerated tests. We analyzed the behavior characteristics through experiments and Technology Computer Aided Design (TCAD) simulation to improve the accuracy of long-term data retention in TANOS (Tantalum-Alumina-Nitride-Oxide-Silicon) which is one of 3-D NAND. We also examined the effects of time and temperature about data retention by dividing them into four mechanisms: Schottky emission, Fowler-Nordheim (FN) tunneling, Poole-Frenkel (PF) emission, and trap-assisted tunneling.
Tanos结构中数据保留特性的机理分析
最近,随着数据使用量的增加,用于存储数据的内存使用量也在增加。采用NAND结构的固态硬盘(SSD)作为存储设备与硬盘驱动器(HDD)一起被广泛使用,为了降低生产成本,人们进行了大量的研究。其中之一是利用电荷阱闪存(CTF)技术,将NAND结构从2-D变为3-D,该技术在浮栅中使用氮化材料(即TANOS)代替传统的多晶硅(即SONOS)。随着结构和材料的改变,器件的特性也随之改变。记忆的重要功能之一是保存数据的能力。因此,本文对TANOS结构的长期评价进行了研究,并通过加速试验对其保留特性进行了预测。为了提高TANOS(钽-氧化铝-氮化氧化物-硅)的长期数据保留精度,我们通过实验和计算机辅助设计(TCAD)模拟技术分析了TANOS(钽-氧化铝-氮化氧化物-硅)的行为特征。我们还研究了时间和温度对数据保留的影响,并将其分为四种机制:Schottky发射、Fowler-Nordheim (FN)隧穿、Poole-Frenkel (PF)发射和陷阱辅助隧穿。
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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