三极管
材料科学
光电子学
二极管
晶体管
CMOS芯片
模拟开关
炸薯条
电气工程
电压
MOSFET
电容器
工程类
作者
Wei Huang,Hongxia Liu,Qing Xu
出处
期刊:Nanotechnology
[IOP Publishing]
日期:2024-05-30
卷期号:35 (43): 435204-435204
标识
DOI:10.1088/1361-6528/ad520a
摘要
Abstract This paper proposes a novel circuit-level design in order to enhance the radiation tolerance of an analog switch integrated circuit. After analyzing the mechanisms of single-particle sensitivity in a high-voltage analog switch chip fabricated using a commercial 1 μ m complementary metal–oxide–semiconductor process, a diode unit was employed to reduce the V GS (voltage between the gate and the base) of the parasitic triode within the metal–oxide–semiconductor field-effect transistor of the switch. This reduction lowered the probability of activating the parasitic triode in response to single-event effect (SEE). Subsequently, single-particle irradiation experiments proceeded with the high-voltage analog switch chip, both with and without the diode unit. In the unreinforced device, the current of the power supply reached 100 mA within 11 s of single-particle irradiation at 75.8 MeV • cm 2 mg −1 . In contrast, in the reinforced device, the current of the power supply remained relatively stable under irradiation at both 37.2 and 75.8 MeV•cm 2 mg −1 . These findings indicate that the reinforced analog switch chip exhibits an SEE tolerance exceeding 75.8 MeV•cm 2 mg −1 , highlighting its potential to enhance the radiation tolerance of analog switches.
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