Tao Liu;Rongyao Ma;Shaohong Li;Jingyu Tao;Zhiyu Wang;Hao Wu;Yiren Yu;Zijun Cheng;Shengdong Hu
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The maximum \n<inline-formula> <tex-math>$V_{\\text {TH}}$ </tex-math></inline-formula>\n shifts are −1.92 V for a \n<inline-formula> <tex-math>$V_{\\text {GS}}$ </tex-math></inline-formula>\n of 0 V and a TID of 500 krad(Si), and −4.73 V for a \n<inline-formula> <tex-math>$V_{\\text {GS}}$ </tex-math></inline-formula>\n of 20 V and a TID of 150 krad(Si), respectively. A novel method of investigation on TID-induced \n<inline-formula> <tex-math>$V_{\\text {TH}}$ </tex-math></inline-formula>\n shift from energy domain and numerical simulation with the aid of the TCAD tool is exploited. Extensive simulations indicate that donor-like oxide traps with energy larger than 0.55 eV dominate the negative \n<inline-formula> <tex-math>$V_{\\text {TH}}$ </tex-math></inline-formula>\n shift. The summation of two Gaussian distribution models is used to emulate trapped hole energy distribution, and the relative errors between measured and simulated \n<inline-formula> <tex-math>$V_{\\text {TH}}$ </tex-math></inline-formula>\n shifts are within ±13.36% at a TID of 100 krad(Si).","PeriodicalId":13406,"journal":{"name":"IEEE Transactions on Nuclear Science","volume":"71 11","pages":"2386-2392"},"PeriodicalIF":1.9000,"publicationDate":"2024-10-14","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Comparative Investigation on Ionizing Irradiation- Induced Threshold Voltage Degradation for 1200-V DT SiC MOSFET by Experiment and Simulation\",\"authors\":\"Tao Liu;Rongyao Ma;Shaohong Li;Jingyu Tao;Zhiyu Wang;Hao Wu;Yiren Yu;Zijun Cheng;Shengdong Hu\",\"doi\":\"10.1109/TNS.2024.3479201\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"Threshold voltage (\\n<inline-formula> <tex-math>$V_{\\\\text {TH}}$ </tex-math></inline-formula>\\n) degradation mechanisms induced by the ionizing irradiation for the 1200-V double-trench (DT) silicon-carbide (SiC) metal-oxide semiconductor field-effect transistor (MOSFET) are investigated. 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引用次数: 0
摘要
研究了 1200 V 双沟槽(DT)碳化硅(SiC)金属氧化物半导体场效应晶体管(MOSFET)在电离辐照诱导下的阈值电压($V_{text {TH}}$ )衰减机制。电离辐照实验是在不同的栅源电压($V_{\text {GS}}$)和总电离剂量(TIDs)下进行的。当 $V_{\text {GS}$ 为 0 V 和 TID 为 500 krad(Si) 时,最大 $V_{\text {TH}}$ 漂移为-1.92 V;当 $V_{\text {GS}$ 为 20 V 和 TID 为 150 krad(Si) 时,最大 $V_{\text {TH}}$ 漂移为-4.73 V。在 TCAD 工具的帮助下,利用一种新方法从能域和数值模拟方面研究了 TID 引起的 $V_{text {TH}}$ 漂移。大量的模拟结果表明,能量大于 0.55 eV 的供体类氧化物陷阱主导了 $V_{text {TH}}$ 的负偏移。在 100 krad(Si) 的 TID 条件下,测量值与模拟值之间的相对误差在 ±13.36% 以内。
Comparative Investigation on Ionizing Irradiation- Induced Threshold Voltage Degradation for 1200-V DT SiC MOSFET by Experiment and Simulation
Threshold voltage (
$V_{\text {TH}}$
) degradation mechanisms induced by the ionizing irradiation for the 1200-V double-trench (DT) silicon-carbide (SiC) metal-oxide semiconductor field-effect transistor (MOSFET) are investigated. The ionizing irradiation experiment is performed with different gate-source voltages (
$V_{\text {GS}}$
) and total ionizing doses (TIDs). The maximum
$V_{\text {TH}}$
shifts are −1.92 V for a
$V_{\text {GS}}$
of 0 V and a TID of 500 krad(Si), and −4.73 V for a
$V_{\text {GS}}$
of 20 V and a TID of 150 krad(Si), respectively. A novel method of investigation on TID-induced
$V_{\text {TH}}$
shift from energy domain and numerical simulation with the aid of the TCAD tool is exploited. Extensive simulations indicate that donor-like oxide traps with energy larger than 0.55 eV dominate the negative
$V_{\text {TH}}$
shift. The summation of two Gaussian distribution models is used to emulate trapped hole energy distribution, and the relative errors between measured and simulated
$V_{\text {TH}}$
shifts are within ±13.36% at a TID of 100 krad(Si).
期刊介绍:
The IEEE Transactions on Nuclear Science is a publication of the IEEE Nuclear and Plasma Sciences Society. It is viewed as the primary source of technical information in many of the areas it covers. As judged by JCR impact factor, TNS consistently ranks in the top five journals in the category of Nuclear Science & Technology. It has one of the higher immediacy indices, indicating that the information it publishes is viewed as timely, and has a relatively long citation half-life, indicating that the published information also is viewed as valuable for a number of years.
The IEEE Transactions on Nuclear Science is published bimonthly. Its scope includes all aspects of the theory and application of nuclear science and engineering. It focuses on instrumentation for the detection and measurement of ionizing radiation; particle accelerators and their controls; nuclear medicine and its application; effects of radiation on materials, components, and systems; reactor instrumentation and controls; and measurement of radiation in space.
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