P+-和N+- poly SONOS NAND闪存的程序、擦除和数据保留特性的详细比较

2006 IEEE International Workshop on Memory Technology, Design, and Testing (MTDT'06) Pub Date : 2006-08-02 DOI:10.1109/MTDT.2006.10

V. C. Kuo, Chih-Ming Chao, Chih-Kai Kang, Li-Wei Liu, Tzung-Bin Huang, L. Kuo, Shi-Hsien Chen, Houng-Chi Wei, H. Hwang, S. Pittikoun

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引用次数: 3

摘要

本文研究了一种具有p+-多栅极的未来非易失性存储器的候选材料——SONOS，它在单元程序/擦除操作和数据保留性能方面进行了充分的表征。新的源端注入编程和F-N擦除方案被用于n+-和p+-多栅极，其特性非常令人满意，可以很容易地用作最先进的闪存。对于数据保留，我们的实验结果表明，p+-poly确实比n+-poly栅极具有更慢的电荷衰减率。这是因为n+-和p+-多栅极之间的功函数不同，导致两者之间捕获电子的数量不同。我们还预测了n+-和p+-多晶硅栅极在不同烘烤温度下的电荷损失特性，可以在任意读取延迟时间下给出具体的阈值电压，而不是传统的短时间状态下不准确的长时间预测

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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Detailed Comparisons of Program, Erase and Data Retention Characteristics between P+- and N+-Poly SONOS NAND Flash Memory

In this paper, one of the future nonvolatile memory candidates, SONOS with p+-poly gate, has been fully characterized in cell program/erase operation and data retention performance. Novel source-side injection programming and F-N erase schemes have been utilized on both n+- and p+-poly gate, and its characteristics are very satisfactory and can be easily used as a state-of-the-art flash memory. For data retention, our experimental result shows p+-poly does have a slower charge decay rate than does n+-poly gate. This is because of the work function difference between n+- and p+-poly gate that causes the different amount of trapped electrons between two of them. We also predict the charge loss characteristics with various baking temperature for n+- and p+-poly gate, which can tell us the concrete threshold voltage at any read delay time instead of the traditional and inaccurate long time projection from short time status

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来源期刊

2006 IEEE International Workshop on Memory Technology, Design, and Testing (MTDT'06)

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