Analysis of single-event transient sensitivity in fully depleted silicon-on-insulator MOSFETs 被引量：3

Analysis of single-event transient sensitivity in fully depleted silicon-on-insulator MOSFETs

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摘要 Based on 3 D-TCAD simulations, single-event transient(SET) effects and charge collection mechanisms in fully depleted silicon-on-insulator(FDSOI) transistors are investigated. This work presents a comparison between28-nm technology and 0.2-lm technology to analyze the impact of strike location on SET sensitivity in FDSOI devices. Simulation results show that the most SET-sensitive region in FDSOI transistors is the drain region near the gate. An in-depth analysis shows that the bipolar amplification effect in FDSOI devices is dependent on the strike locations. In addition, when the drain contact is moved toward the drain direction, the most sensitive region drifts toward the drain and collects more charge. This provides theoretical guidance for SET hardening. Based on 3 D-TCAD simulations, single-event transient(SET) effects and charge collection mechanisms in fully depleted silicon-on-insulator(FDSOI) transistors are investigated. This work presents a comparison between28-nm technology and 0.2-lm technology to analyze the impact of strike location on SET sensitivity in FDSOI devices. Simulation results show that the most SET-sensitive region in FDSOI transistors is the drain region near the gate. An in-depth analysis shows that the bipolar amplification effect in FDSOI devices is dependent on the strike locations. In addition, when the drain contact is moved toward the drain direction, the most sensitive region drifts toward the drain and collects more charge. This provides theoretical guidance for SET hardening.

作者 Jing-Yan Xu Shu-Ming Chen Rui-Qiang Song Zhen-Yu Wu Jian-Jun Chen

机构地区 College of Computer National Laboratory for Parallel and Distributed Processing

出处《Nuclear Science and Techniques》 SCIE CAS CSCD 2018年第4期108-113,共6页 核技术（英文）

基金 supported by the National Natural Science Foundation of China(Nos.61434007 and 61376109)

关键词 Single-event transient Charge COLLECTION BIPOLAR AMPLIFICATION Fully depleted SILICON-ON-INSULATOR Single-event transient Charge collection Bipolar amplification Fully depleted silicon-on-insulator

分类号 TL [核科学技术]

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