CMOS芯片
材料科学
光电子学
负偏压温度不稳定性
温度测量
碳化硅
长度测量
逻辑门
宽禁带半导体
电气工程
MOSFET
凝聚态物理
晶体管
电压
物理
工程类
光学
冶金
量子力学
作者
Zewei Dong,Yun Bai,Leshan Qiu,Chengyue Yang,Jilong Hao,Yidan Tang,Xuan Li,Xiaoli Tian,Xinyu Liu
标识
DOI:10.1109/led.2024.3485631
摘要
This letter reports the bias temperature instabilities (BTI) of 4H-SiC CMOS devices with different gate lengths (L) and gate widths (W) for integrated circuits at 400 °C for the first time. The result shows that the threshold voltage shift of p-channel MOSFETs is significantly higher than that of n-channel MOSFETs. More serious BTI degradation is observed in CMOS devices with shorter L, especially for p-channel MOSFETs. Additionally, higher gate leakage current density and charged interface traps density are also found in fresh devices with shorter L. Through the energy-band structure, the physical cause of difference in transistor sizes originates from the inhomogeneous channel carrier concentration and charged interface traps density caused by the source and drain diffusion regions.
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