DRAM栅极绝缘子捕获电荷质心的新测量技术

Proceedings of the 1991 International Conference on Microelectronic Test Structures Pub Date : 1990-03-18 DOI:10.1109/ICMTS.1990.161718

J. Kumagai, S. Sawada, K. Toita

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引用次数: 1

摘要

人们开发了一种测量技术，可以同时估计陷阱电荷和陷阱电荷分布的中心，即所谓的电荷质心。该技术适用于研究具有重掺杂多晶硅/绝缘体/重掺杂多晶硅结构的堆叠电容器栅绝缘体膜中注入电荷的陷阱/去陷阱特性。通过在两个多晶硅电极中使用耗尽层来模拟堆叠电容器的C-V特性。将模型与C-V数据进行了实验拟合，得到了俘获电荷和电荷质心。利用这种技术，研究了纳米级ONO薄膜的陷阱/去陷阱特性，并讨论了堆叠电容器电池中由于陷阱电荷的去陷阱而导致的DRAM(动态随机存取存储器)电池信号电压的恶化。

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Novel measurement technique for trapped charge centroid in gate insulator (of DRAM)

A measurement technique was developed that makes it possible to estimate both trap charges and the center of the trap-charge distribution, the so-called charge centroid. This technique is applicable to the study of trap/detrap characteristics of injected charges in the gate insulator film of a stacked capacitor with a heavily doped polysilicon/insulator/heavily doped polysilicon structure. C-V characteristics for the stacked capacitor are modeled by using depletion layers in both polysilicon electrodes. Experimental fitting of the model to C-V data was carried out and trap charges and the charge centroid were obtained. Using this technique, trap/detrap characteristics for nanometer-think ONO film were investigated, and the deterioration in DRAM (dynamic random-access memory) cell signal voltage for a stacked capacitor cell, due to detrapping the trap charges, is discussed.<>

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Proceedings of the 1991 International Conference on Microelectronic Test Structures

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