A Novel Snapback-Free Reverse-Conducting IGBT with Si/SiC Heterojunction

机译：具有Si / SiC异质结的新型无回跳反向导通IGBT

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A novel high performance snapback-free reverse-conducting insulated gate bipolar transistor with silicon/silicon carbide (Si/SiC) heterojunction (HJ-RC-IGBT) is proposed for the first time. The formed heterojunction in the collector for the proposed structure cuts off the current flow path of the internal parasitic MOSFET in the IGBT mode. The simulation results show that similar as the conventional FS-IGBT, a snapback-free current-voltage (I-V) characteristics is achieved without using a large p-collector width. Therefore, compared to the conventional RC-IGBT and FS-IGBT, the tradeoff relationship between the on-state voltage drop $(V_{mathrm{c}mathrm{e}(mathrm{o}mathrm{n})})$ and turn-off loss $(E_{mathrm{o}mathrm{f}mathrm{f}})$ is improved for the proposed HJ-RC-IGBT. Meanwhile, the distribution of current and carriers are uniform for the proposed HJ-RC-IGBT in both IGBT and diode modes, which improves the device reliability.

机译：首次提出了具有硅/碳化硅（Si / SiC）异质结（HJ-RC-IGBT）的新型高性能，无骤回的反向导电绝缘栅双极晶体管。对于所提出的结构，在集电极中形成的异质结切断了IGBT模式下内部寄生MOSFET的电流路径。仿真结果表明，与传统的FS-IGBT相似，无需使用大的p集电极宽度即可实现无回跳的电流-电压（I-V）特性。因此，与传统的RC-IGBT和FS-IGBT相比，导通电压降之间的权衡关系 $（V _ {\ mathrm { c} \ mathrm {e}（\ mathrm {o} \ mathrm {n}）}）$ 和关断损耗 $（E _ {\ mathrm { o} \ mathrm {f} \ mathrm {f}}）$ 对建议的HJ-RC-IGBT进行了改进。同时，建议的HJ-RC-IGBT在IGBT和二极管模式下电流和载流子的分布是均匀的，从而提高了器件的可靠性。

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《IEEE Electron Devices Technology and Manufacturing Conference》|2020年|1-4|共4页
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Jinping Zhang; Junyi Luo; Zixun Chen; Zehong Li; Bo Zhang;
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IGBT; reverse-conducting; snapback-free; silicon carbide; heterojunction;

机译：IGBT;反向导通;无回跳;碳化硅;异质结;

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专利

1. Simulation study on a novel snapback-free and low turn-off loss reverse-conducting SOI-LIGBT with P-type double trench gates on the anode region [J] . Zhang Bingke, Kong Moufu, Yi Bo, Semiconductor science and technology . 2019,第10期

机译：一种新型无回弹，低关断损耗的反向导电SOI-LIGBT的阳极区P型双沟槽栅极的仿真研究
2. A Novel Low Turn-Off Loss and Snapback-Free Reverse-Conducting SOI-LIGBT With Integrated Polysilicon Diodes [J] . Hu Huan, Kong Moufu, Wu Jiayu, IEEE Transactions on Electron Devices . 2019,第10期

机译：具有集成多晶硅二极管的新型低关断损耗和无回跳的反导SOI-LIGHT
3. A novel snapback-free reverse-conducting (RC) SOI-LIGBT with a built-in thyristor [J] . Jingjie Lin, Ping Li, Junji Cheng, IEICE Electronics Express . 2019,第24期

机译：具有内置晶闸管的一种新型卷曲反向导通（RC）SOI-LIGBT
4. A Snapback-Free Reverse-Conducting IGBT with Integrated Schottky Diode in the Collector [C] . Jinping Zhang, Junyi Luo, Kang Wang, International Conference on Electron Devices and Solid-State Circuits . 2019

机译：集电极中集成了肖特基二极管的无反激反向导通IGBT
5. Modeling of SiC P-channel insulated gate bipolar transistors (IGBTS). [D] . Saadeh, Mahmood Shihadeh. 2011

机译：SiC P沟道绝缘栅双极晶体管（IGBTS）的建模。
6. Tunable Synthesis of SiC/SiO2 Heterojunctions via Temperature Modulation [O] . Wei Li, Quanli Jia, Daoyuan Yang, 2018

机译：通过温度调节可调谐合成SiC / SiO2异质结
7. A novel snapback-free reverse-conducting (RC) SOI-LIGBT with a built-in thyristor [O] . Jingjie Lin, Ping Li, Junji Cheng, 2019

机译：具有内置晶闸管的一种新型卷曲反向导通（RC）SOI-LIGBT

A Novel Snapback-Free Reverse-Conducting IGBT with Si/SiC Heterojunction

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