共查询到18条相似文献,搜索用时 78 毫秒
1.
2.
随着器件尺寸的迅速减小 ,直接隧穿电流将代替 FN电流而成为影响器件可靠性的主要因素 .根据比例差值算符理论和弛豫谱技术 ,针对直接隧穿应力下超薄栅 MOS结构提出了一种新的弛豫谱——恒压应力下的直接隧穿弛豫谱 (DTRS) .该弛豫谱保持了原有弛豫谱技术直接、快速和方便的优点 ,能够分离和表征超薄栅 MOS结构不同氧化层陷阱 ,提取氧化层陷阱的产生 /俘获截面、陷阱密度等陷阱参数 .直接隧穿弛豫谱主要用于研究直接隧穿注入的情况下超薄栅 MOS结构中陷阱的产生和复合 ,为超薄栅 MOS结构的可靠性研究提供了一强有力工具 . 相似文献
3.
随着器件尺寸的迅速减小,直接隧穿电流将代替FN电流而成为影响器件可靠性的主要因素.根据比例差值算符理论和弛豫谱技术,针对直接隧穿应力下超薄栅MOS结构提出了一种新的弛豫谱--恒压应力下的直接隧穿弛豫谱(DTRS).该弛豫谱保持了原有弛豫谱技术直接、快速和方便的优点,能够分离和表征超薄栅MOS结构不同氧化层陷阱,提取氧化层陷阱的产生/俘获截面、陷阱密度等陷阱参数.直接隧穿弛豫谱主要用于研究直接隧穿注入的情况下超薄栅MOS结构中陷阱的产生和复合,为超薄栅MOS结构的可靠性研究提供了一强有力工具. 相似文献
4.
5.
6.
7.
8.
理论分析了MOSFET关态泄漏电流产生的物理机制,深入研究了栅氧化层厚度为1.4nm MOSFET传统关态下边缘直接隧穿栅泄漏现象.结果表明:边缘直接隧穿电流服从指数变化规律;传统关态下边缘直接隧穿对长沟道器件的影响大于短沟道器件;衬底反偏在一定程度上减小边缘直接隧穿泄漏电流. 相似文献
9.
10.
11.
The degradation of device under GIDL (gate-induced drain leakage current) stress has been studied using LDD NMOSFETs with 1.4 nm gate oxides. Experimental result shows that the degradation of device parameters depends more strongly on Vd than on Vg. The characteristics of the GIDL current are used to analyze the damage generated during the stress. It is clearly found that the change of GIDL current before and after stress can be divided into two stages. The trapping of holes in the oxide is dominant in the first stage, but that of electrons in the oxide is dominant in the second stage. It is due to the common effects of edge direct tunneling and band-to-band tunneling. SILC(stress induced leakage current)in the NMOSFET decreases with increasing stress time under GIDL stress. The degradation characteristic of SILC also shows saturating time dependence. SILC is strongly dependent on the measured gate voltage. The higher the measured gate voltage, the less serious the degradation of the gate current. A likely mechanism is presented to explain the origin of SILC during GIDL stress. 相似文献
12.
Hu Shigang Hao Yue Cao Yanrong Ma Xiaohua Wu Xiaofeng Chen Chi Zhou Qingjun 《半导体学报》2009,30(4):044004-044004-4
The degradation of device under GIDL(gate-induced drain leakage current)stress has been studied using LDD NMOSFETs with 1.4 nm gate oxides.Experimental result shows that the degradation of device parameters depends more strongly on Vd than on Vg.The characteristics of the GIDL current are used to analyze the damage generated during the stress.It is clearly found that the change of GIDL current before and after stress can be divided into two stages.The trapping of holes in the oxide is dominant in the first stage,but that of electrons in the oxide is dominant in the second stage.It is due to the common effects of edge direct tunneling and band-to-band tunneling.SILC(stress induced leakage current)in the NMOSFET decreases with increasing stress time under GIDL stress.The degradation characteristic of SILC also shows saturating time dependence.SILC is strongly dependent on the measured gate voltage.The higher the measured gate voltage,the less serious the degradation of the gate current.A likely mechanism is presented to explain the origin of SILC during GIDL stress. 相似文献
13.
14.
15.
16.
研究了沟长从 0 .5 2 5 μm到 1.0 2 5 μm9nm厚的 P- MOSFETs在关态应力 ( Vgs=0 ,Vds<0 )下的热载流子效应 .讨论了开态和关态应力 .结果发现由于在漏端附近存在电荷注入 ,关态漏电流在较高的应力后会减小 .但是低场应力后关态漏电流会增加 ,这是由于新生界面态的作用 .结果还发现开态饱和电流和阈值电压在关态应力后变化很明显 ,这是由于栅漏交叠处的电荷注入和应力产生的界面态的影响 .Idsat的退化可以用函数栅电流 ( Ig)乘以注入的栅氧化层电荷数 ( Qinj)的幂函数表达 .最后给出了基于 Idsat退化的寿命预测模型 相似文献
17.