Total-Ionizing-Dose Radiation-Induced Electric Field Redistribution Model and Hardening Method for SGT MOSFET

Total-Ionizing-Dose Radiation-Induced Electric Field Redistribution Model and Hardening Method for SGT MOSFET

In this article, an analytical model for the total-ionizing-dose (TID) radiation-induced electric field redistribution (RIER) in the drift region is established based on the Poisson equation, which explains the "slow-fast-slow" degradation trend of breakdown voltage (BV) of the shield gate...

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Veröffentlicht in:IEEE transactions on electron devices 2023-11, Vol.70 (11), p.5543-5549
Hauptverfasser: Ren, Min, Zhang, Shuping, Tu, Junjie, Tao, Lin, Zhou, Ziyi, Wu, Yining, Li, Zehong, Zhang, Bo
Format: Artikel
Sprache:eng
Schlagworte:
Breakdown voltage (BV)
Degradation
Electric fields
Electron traps
Field effect transistors
internal electric field modulation (IEM)
Logic gates
Mathematical models
Metal oxide semiconductors
MOSFET
MOSFETs
Poisson equation
Radiation dosage
Radiation effects
Radiation hardening
radiation resistance
Radiation tolerance
radiation-induced electric field redistribution (RIER)
Semiconductor device modeling
Semiconductor devices
shield gate trench metal-oxide-semiconductor field effect transistor (SGT MOSFET)
total-ionizing-dose (TID)
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Zusammenfassung:In this article, an analytical model for the total-ionizing-dose (TID) radiation-induced electric field redistribution (RIER) in the drift region is established based on the Poisson equation, which explains the "slow-fast-slow" degradation trend of breakdown voltage (BV) of the shield gate trench metal-oxide-semiconductor field effect transistor (SGT MOSFET) with the increase of the radiation dose in the experiments. Moreover, a new radiation-hardened SGT MOSFET based on the internal electric field modulation (IEM-SGT) concept is proposed. The simulation shows that IEM-SGT can achieve five times better radiation resistance of BV than that of the non-hardened device, with a small deterioration in electrical performance.
ISSN:0018-9383
1557-9646
DOI:10.1109/TED.2023.3319281