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High current gain 4H-SiC bipolar junction transistor

High current gain 4H-SiC bipolar junction transistor
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摘要 A novel 4H-SiC BJT of high current gain with a suppressing surface traps effect has been proposed. It is effective to improve the current gain due to the lower electrons density in the surface region by extending the emitter metal to overlap the passivation layer on the extrinsic base surface. The electrons trapped in the extrinsic base surface induce the degeneration of Si C BJTs device performance. By modulating the electron recombination rate, the novel structure can increase the current gain to 63.2% compared with conventional ones with the compatible process technology. Optimized sizes are an overlapped metal length of 4 m, as well as an oxide layer thickness of 50 nm. A novel 4H-SiC BJT of high current gain with a suppressing surface traps effect has been proposed. It is effective to improve the current gain due to the lower electrons density in the surface region by extending the emitter metal to overlap the passivation layer on the extrinsic base surface. The electrons trapped in the extrinsic base surface induce the degeneration of Si C BJTs device performance. By modulating the electron recombination rate, the novel structure can increase the current gain to 63.2% compared with conventional ones with the compatible process technology. Optimized sizes are an overlapped metal length of 4 m, as well as an oxide layer thickness of 50 nm.
作者 张有润 施金飞 刘影 孙成春 郭飞 张波
机构地区 State Key Laboratory of Electronic Thin Film and Integrated Device University of Electronic Science and Technology of China School of Energy Science and Engineering
出处 《Journal of Semiconductors》 EI CAS CSCD 2016年第4期57-60,共4页 半导体学报(英文版)
基金 Project supported by the National Natural Science Foundation of China(Nos.61306093,61401075)
关键词 4H-SiC bipolar junction transistors(BJTs) current gain electron trap 4H-SiC bipolar junction transistors(BJTs) current gain electron trap
分类号 TN322.8 [电子电信—物理电子学]
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  • 1Krishnaswami S, Agarwal A, Ryu S H, Capell C, Richmond J, Palmour J, Balachandran S, Chow T P, Bayne S, Geil B, Jones K and Scozzie C 2005 Electron Device Lett. 26 175.
  • 2Balachandran S, Chow T P, Agarwal A, Scozzie C and Jones K A 2005 Electron Device Lett. 26 470.
  • 3Ivanov P A, Levinshtein M E, Agarwal A K, Krishnaswami S and Palmour J W 2006 Electron Devices 53 1245.
  • 4Zhang J H, Li X Q, Alexandrov P, Fursin L, Wang X H and Zhao J H 2008 Electron Devices 55 1899.
  • 5Gao Y, Huang A Q, Zhang Q C, Krishnaswami S and Agarwal A K 2007 Proc. 19th Int. Syrup. Power Semiconductor Devices Ics 121.
  • 6Knaup J M, Frauenheim P D T, Gali A, Hajnal Z and Choyke W J 2005 Phys. Rev. B 72 115323.
  • 7Soares G V, Baumvol I J R, Hold L, Kong F, Dimitrijev J H S, Radtke C and Stedile F C 2007 Appl. Phys. Lett. 91 041906.
  • 8Powell S K, Goldsman N, McGarrity J M, Bernstein J, Scozzie C J and Leli~ A 2002 J. Appl. Phys. 92 4053.
  • 9Potbhare S, Goldsman N, Lelis A, McGarrity J M,McLean F B and Habersat D 2008 Electron Devices 55 2029.
  • 10Zhang Y R, Zhang B, Li Z J, Deng X C and Liu X L 2009 Chin. Phys. B 18 3995.

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Journal of Semiconductors
2016年 第4期

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