平面和凸起STI电荷捕获快闪记忆体中电荷损失机制的研究

2010 International Conference on Simulation of Semiconductor Processes and Devices Pub Date : 2010-10-14 DOI:10.1109/SISPAD.2010.5604520

Z. Xia, Dae Sin Kim, Ju-Yul Lee, Keun-Ho Lee, Young-Kwan Park, Moon-Hyun Yoo, C. Chung

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引用次数: 6

摘要

本文对平面型和提高STI型nand型电荷捕获闪存(CTF)存储器中的电荷损失机制进行了全面的模拟研究，并进行了仔细的校准。基于栅极堆泄漏、程序速度和高温保持等实验数据，对具有普尔-弗兰克尔(pole - frenkel, PF)效应的隧道和氮化硅陷阱输运进行了自一致性求解和验证。在程序设定的基础上，对高温保持进行了仿真，并与实测数据进行了对比。在平面CTF中，分析了通过隧道层和阻挡层的垂直电荷损失。结果表明，前者占主导地位。最后，比较了凸起型CTF与平面型CTF的电荷损失。研究结果表明，凸起型CTF中电荷损失的增加主要是由于侧向扩散和边缘附近的非均匀电荷储存引起的，特别是在窄宽度(100nm)凸起型CTF中。

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Investigation of charge loss mechanisms in planar and raised STI charge trapping flash memories

A comprehensive simulation to investigate the charge loss mechanisms in planar and raised STI NAND-type charge trapping flash (CTF) memories with careful calibrations is present. The tunneling and silicon nitride trap transport with Poole-Frenkel (PF) effect are solved self-consistently and validated based on the experimental data including gate stacks leakage, program speed, and high temperature retention. Based on the programmed state, the high temperature retention is simulated and compared with the measurement data. In planar CTF, the vertical charge loss through tunneling layers and blocking layers are analyzed. The results show that the former is the dominant one. Finally, the charge loss in raised STI CTF is compared with that in planar CTF. The results show that the enhanced charge loss in raised STI CTF is induced by the lateral spreading and the non-uniform charge storage nearby the STI edge, especially in the narrow width (100nm) raised STI CTF.

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2010 International Conference on Simulation of Semiconductor Processes and Devices

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