Theoretical analysis of short-circuit capability of SiC power MOSFETs

Shoji Tomoyuki; Soeno Akitaka; Toguchi Hiroaki; Aoi Sachiko; Watanabe Yukihiko; Tadano Hiroshi

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Theoretical analysis of short-circuit capability of SiC power MOSFETs

机译：SiC功率MOSFET短路能力的理论分析。

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The short-circuit capability of Si power devices, defined in terms of critical energy density, is the product of the heat capacity in the heat generation region and the increase in temperature. However, for SiC power devices, the heat generation region is significantly smaller than that for Si power devices, because the drift-region thickness is about 10 times less in SiC power devices. Therefore, the formulae used for Si devices are not directly applicable to SiC devices. In this study, analytical formulae are derived for the short-circuit capability of a SiC power device and its dependence on the ambient temperature and the thickness of the n(-) drift region, on the basis of the thermal diffusion equation. The calculated results are found to be in good agreement with those of direct measurements. (C) 2015 The Japan Society of Applied Physics

机译：根据临界能量密度定义的Si功率器件的短路能力是发热区的热容量与温度升高的乘积。但是，对于SiC功率器件，其发热区域明显小于Si功率器件，因为SiC功率器件的漂移区厚度要小10倍左右。因此，用于Si器件的公式不能直接应用于SiC器件。在这项研究中，根据热扩散方程，得出了SiC功率器件的短路能力及其对环境温度和n（-）漂移区厚度的依赖性的解析公式。发现计算结果与直接测量的结果非常一致。（C）2015年日本应用物理学会

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《Japanese journal of applied physics》 |2015年第4s期|04DP03.1-04DP03.4|共4页
作者
Shoji Tomoyuki; Soeno Akitaka; Toguchi Hiroaki; Aoi Sachiko; Watanabe Yukihiko; Tadano Hiroshi;
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Univ Tsukuba, Grad Sch Pure & Appl Sci, Tsukuba, Ibaraki 3058573, Japan.;

Toyota Motor Co Ltd, Toyota, Aichi 4700309, Japan.;

Toyota Motor Co Ltd, Toyota, Aichi 4700309, Japan.;

Toyota Cent Res & Dev Labs Inc, Nagakute, Aichi 4801192, Japan.;

Toyota Cent Res & Dev Labs Inc, Nagakute, Aichi 4801192, Japan.;

Univ Tsukuba, Grad Sch Pure & Appl Sci, Tsukuba, Ibaraki 3058573, Japan.;

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机译：SI功率MOSFET的选择方法，用于增强SIC电源MOSFET短路能力，基本（EMM）拓扑
2. Capability of SiC MOSFETs under Short-Circuit Tests and Development of a Thermal Model by Finite Element Analysis [J] . Daniela Cavallaro, Mario Pulvirenti, Edoardo Zanetti, Materials science forum . 2019,第期

机译：SiC MOSFET在短路测试下的能力和通过有限元分析进行热模型的开发
3. Trap Analysis Based on Low-Frequency Noise for SiC Power MOSFETs Under Repetitive Short-Circuit Stress [J] . Wang J. L., Chen Y. Q., Feng J. T., Electron Devices Society, IEE . 2020,第期

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4. Comparison of BaSIC(DMM) and BaSIC(EMM) Topologies to Enhance Short-Circuit Capability in SiC Power MOSFETs [C] . Ajit Kanale, B. Jayant Baliga IEEE Applied Power Electronics Conference and Exposition . 2021

机译：基本（DMM）和基本（EMM）拓扑增强SIC电源MOSFET短路能力的比较
5. Design, Analysis, and Optimization of 1.2 kV 4H-SiC Planar-Gate Power MOSFETs for Improved High Frequency Switching [D] . Han, Kijeong. 2019

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6. Modeling and Analysis of vgs Characteristics for Upper-Side and Lower-Side Switches at Turn-on Transients for a 1200V/200A Full-SiC Power Module [O] . Maosheng Zhang, Na Ren, Qing Guo, 2020

机译：1200V / 200A全SiC电源模块在开启瞬态时上侧和下侧开关的vgs特性的建模和分析
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8. Long-Term Reliability of a Hard-Switched Boost Power Processing Unit Utilizing SiC Power MOSFETs. [R] . Ikpe, S. A., Lauenstein, J., Chen, Y., 2016

机译：利用siC功率mOsFET的硬开关Boost功率处理单元的长期可靠性。

Theoretical analysis of short-circuit capability of SiC power MOSFETs

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