Research and design of high voltage radiation hardened lateral diffused metal oxide semiconductor

Research and design of high voltage radiation hardened lateral diffused metal oxide semiconductor

Lateral diffused metal oxide semiconductors (LDMOS) used in power management integrated circuits demonstrate low anti-radiation performance. To address this issue, a high voltage radiation hardened LDMOS structure was studied, and an N-LDMOS device with a breakdown voltage of 60 V was designed.We an...

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Bibliographic Details
Main Authors: CHU Fei, CHEN Hongzhuan, PENG Ling, WANG Ying, NING Jingyi
Format: Article
Language:zho
Published: Science Press 2022-10-01
Series:Fushe yanjiu yu fushe gongyi xuebao
Subjects:
power ic
lateral diffused metal oxide semiconductors
single event burnout
single event gate rupture
Online Access:http://www.fs.sinap.ac.cn/thesisDetails#10.11889/j.1000-3436.2022-0035&lang=zh
Description
Summary:Lateral diffused metal oxide semiconductors (LDMOS) used in power management integrated circuits demonstrate low anti-radiation performance. To address this issue, a high voltage radiation hardened LDMOS structure was studied, and an N-LDMOS device with a breakdown voltage of 60 V was designed.We analyzed the radiation hardening mechanism of the heavily doped P+well and buffer layer structures using the Ta ion model (Linear energy transfer, LET=79.2 MeV·cm2/mg) with a TCAD simulation tool and verified it via an irradiation test. The results revealed that by using the heavily doped P+well and buffer layer structures, the single event burnout voltage of the high-voltage LDMOS could be improved to 60 V.
ISSN:1000-3436

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