A Novel 4H–SiC/Si Heterojunction IGBT Achieving Low Turn–Off Loss

wang, Erjun; Tian, Xiaoli; Jiang, Lu; Wang, Xinhua; Li, Chengzhan; Bai, Yun; Yang, Chengyue; Tang, Yidan; Liu, Xinyu

doi:10.3390/electronics12112501

Electronics

2023

DOI: 10.3390/electronics12112501

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A Novel 4H–SiC/Si Heterojunction IGBT Achieving Low Turn–Off Loss

Erjun wang

Xiaoli Tian

Lu Jiang

et al.

Abstract: In this paper, a novel silicon carbide (SiC) insulated gate bipolar transistor (IGBT) with a 4H–SiC/Si heterojunction in the buffer layer (HBL) is proposed to improve the turn–off characteristic. Compared with the conventional 4H–SiC IGBT, the polysilicon region is integrated in the buffer layer to form a natural potential well, which can help to store excess carriers in the turn–off process. The simulation results indicate that the turn–off time (toff) was reduced from 325 ns to 232 ns, and the turn–off loss … Show more

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2024

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Research on the optimal width and optimal life value of IGBT unilateral local lifetime control

Ma,

Xi,

et al. 2024

IEICE Electron. Express

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In order to explore the improvement of IGBT devices with high performance and low loss by unilateral local lifetime control, this paper uses Sentaurus TCAD simulation to compare the effects of overall and unilateral local lifetime control on the performance of insulated gate bipolar transistor. The results show that the unilateral local lifetime control achieves a good compromise in the characteristics of IGBT, especially when the lifetime control area is close to the Nbuffer layer, the overall performance of IGBT is the most superior. Further research on unilateral localized lifetime control shows that by reducing the minority carrier lifetime and increasing the width of the lifetime control region at the same time, the turn-off loss of the device can be reduced, but the on-state voltage drop can also be increased. When the width of the one-sided local lifetime control region is 20μm and the minority carrier lifetime is 15ns, the relationship between the two can be well balanced, which provides a reference for the design and optimization of IGBT.

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Research on the optimal width and optimal life value of IGBT unilateral local lifetime control

Ma,

Xi,

et al. 2024

IEICE Electron. Express

View full text Add to dashboard Cite

show abstract

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A Novel 4H–SiC/Si Heterojunction IGBT Achieving Low Turn–Off Loss

Cited by 1 publication

References 28 publications

Research on the optimal width and optimal life value of IGBT unilateral local lifetime control

Research on the optimal width and optimal life value of IGBT unilateral local lifetime control

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