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Novel reverse conducting insulated gate bipolar transistor with anti-parallel MOS controlled thyristor

Novel reverse conducting insulated gate bipolar transistor with anti-parallel MOS controlled thyristor
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摘要 Novel reverse-conducting IGBT (RC-IGBT) with anti-parallel MOS controlled thyristor (MCT) is proposed. Its major feature is the introduction of an automatically controlled MCT at the anode, by which the anodeshort effect is eliminated and the voltage snapback problem is solved. Furthermore, the snapback-free characteristics can be realized in novel RC-IGBT by a single cell with a width of 10 μm with more uniform current distribution. As numerical simulations show, compared with the conventional RC-IGBT, the forward conduction voltage is reduced by 35% while the reverse conduction voltage is reduced by 50% at J = 150 A/cm2. Novel reverse-conducting IGBT (RC-IGBT) with anti-parallel MOS controlled thyristor (MCT) is proposed. Its major feature is the introduction of an automatically controlled MCT at the anode, by which the anodeshort effect is eliminated and the voltage snapback problem is solved. Furthermore, the snapback-free characteristics can be realized in novel RC-IGBT by a single cell with a width of 10 μm with more uniform current distribution. As numerical simulations show, compared with the conventional RC-IGBT, the forward conduction voltage is reduced by 35% while the reverse conduction voltage is reduced by 50% at J = 150 A/cm2.
作者 朱利恒 陈星弼
机构地区 State Key Laboratory of Electronic Thin Films and Integrated Devices
出处 《Journal of Semiconductors》 EI CAS CSCD 2014年第7期48-51,共4页 半导体学报(英文版)
基金 supported by the National Natural Science Foundation of China(No.51237001) the Fundamental Research Funds for the Central Universities of China(No.E022050205)
关键词 reverse conducting IGBT snapback flee turn-off energy reverse-recovery charge reverse conducting IGBT snapback flee turn-off energy reverse-recovery charge
分类号 TN322.8 [电子电信—物理电子学]
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参考文献10

  • 1Rahimo M, Schlapbach U, Schnell R, et al. Realization of higher output power capability with the bi-mode insulated gate transistor (BIGT). Proc EPE, 2009:1.
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  • 4Takahashi H, Yamamoto A, Aono S, et al. 1200 V reverse con- ducting IGBT. Proc ISPSD, 2004:133.
  • 5Zhu L, Chen X. A novel snapback-free reverse conducting IGBT with anti-parallel Shockley diode. Proc ISPSD, 2013:261.
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Journal of Semiconductors
2014年 第7期

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