绝缘体上的硅
电压
霍尔效应传感器
霍尔效应
瞬态(计算机编程)
绝缘体(电)
光电子学
偏移量(计算机科学)
撞击电离
材料科学
瞬态电压抑制器
输入偏移电压
电气工程
离子
物理
电离
硅
工程类
电阻率和电导率
CMOS芯片
计算机科学
放大器
运算放大器
量子力学
磁铁
程序设计语言
操作系统
作者
Linjie Fan,Jinshun Bi,Kai Xi,Gangping Yan
出处
期刊:Sensors
[Multidisciplinary Digital Publishing Institute]
日期:2020-07-16
卷期号:20 (14): 3946-3946
被引量:10
摘要
This work investigates the responses of the fully-depleted silicon-on-insulator (FD-SOI) Hall sensors to the three main types of irradiation ionization effects, including the total ionizing dose (TID), transient dose rate (TDR), and single event transient (SET) effects. Via 3D technology computer aided design (TCAD) simulations with insulator fixed charge, radiation, heavy ion, and galvanomagnetic transport models, the performances of the transient current, Hall voltage, sensitivity, efficiency, and offset voltage have been evaluated. For the TID effect, the Hall voltage and sensitivity of the sensor increase after irradiation, while the efficiency and offset voltage decrease. As for TDR and SET effects, when the energy deposited on the sensor during a nuclear explosion or heavy ion injection is small, the transient Hall voltage of the off-state sensor first decreases and then returns to the initial value. However, if the energy deposition is large, the transient Hall voltage first decreases, then increases to a peak value and decreases to a fixed value. The physical mechanisms that produce different trends in the transient Hall voltage have been analyzed in detail.
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