The damage effect and mechanism of bipolar transistors induced by injection of electromagnetic pulse from the base

Ren Xing-Rong; Chai Chang-Chun; Ma Zhen-Yang; Yang Yin-Tang; Qiao Li-Ping; Shi Chun-Lei

doi:10.7498/aps.62.068501

Abstract

A two-dimensional electrothermal model of the bipolar transistor (BJT) is established, and the transient behaviors of the BJT originally in the forward-active region are simulated with the injection of electromagnetic pulse from the base. The results show that the damage location of the BJT shifts with the amplitude of the pulse. With a low pulse amplitude, the burnout of the BJT is caused by the avalanche breakdown of the emitter-base junction, and the damage location lies in the cylindrical region of this junction. With a high pulse amplitude, the damage first occurs at the edge of the base closer to the emitter due to the second breakdown of the p-n-n+ structure composed of the base, the epitaxial layer and the substrate. The burnout time increases with pulse amplitude increasing, while the damage energy changes in a decrease-increase-decrease order with it, thus generating both a minimum value and a maximum value of the damage energy. A comparison between simulation results and experimental ones shows that the transistor model presented in the paper can not only predict the damage location in the BJT under intense electromagnetic pulses, but also obtain the damage energy.

Keywords:

Authors and contacts

1.
School of Microelectronics, Xidian University, Key Laboratory of Ministry of Education for Wide Band-Gap Semiconductor Materials and Devices,Xi’an 710071, China
Funds: Project supported by the National Natural Science Foundation of China (Grant No. 60776034).

References

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[13]	Chen X, Du Z W, Gong K 2007 High Power Laser Part. Beams 19 449 (in Chinese) [陈曦, 杜正伟, 龚克 2007 强激光与粒子束 19 449]
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Cited By

[1]	Chai C C, Xi X W, Ren X R, Yang Y T, Ma Z Y 2010 Acta Phys. Sin. 59 8118 (in Chinese) [柴常春, 席晓文, 任兴荣, 杨银堂, 马振洋 2010 物理学报 59 8118]
[2]	Xi X W, Chai C C, Ren X R, Yang Y T, Ma Z Y, Wang J 2010 J. Semicond. 31 49
[3]	Xi X W, Chai C C, Ren X R, Yang Y T, Zhang B, Hong X 2010 J. Semicond. 31 32
[4]	Ren X R, Chai C C, Ma Z Y, Yang Y T, Wang J, Ren L H 2010 Proceedings of the 11th International Conference on Electronic Packaging Technology & High Density Packaging Xi'an, China, August 16-19, p1210
[5]	Xi X W, Chai C C, Ren X R, Yang Y T, Zhang B 2009 Proceedings of the 16th IEEE International Symposium on the Physical and Failure Analysis of Integrated Circuits Suzhou, China, July 6-10, p443
[6]	Zhou H A, Du Z W, Gong K 2005 High Power Laser Part. Beams 17 1861 (in Chinese) [周怀安, 杜正伟, 龚克 2005 强激光与粒子束 17 1861]
[7]	Arnborg T 1990 IEEE Trans. Electron Devices. 37 2099
[8]	Kyuwoon H, Navon D H, Tang T W, Hower P L 1986 IEEE Trans. Electron Dev. 33 1067
[9]	Ma Z Y, Chai C C, Ren X R, Yang Y T, Chen B 2012 Acta Phys. Sin. 61 078501 (in Chinese) [马振洋, 柴常春, 任兴荣, 杨银堂, 陈斌 2012 物理学报 61 078501]
[10]	Ma Z Y, Chai C C, Ren X R, Yang Y T, Chen B, Zhao Y B 2012 Chin. Phys. B 21 058502
[11]	Ma Z Y, Chai C C, Ren X R, Yang Y T, Chen B, Song K, Zhao Y B 2012 Chin. Phys. B 21 098502
[12]	Zhou H A, Du Z W, Gong K 2006 High Power Laser Part. Beams 18 689 (in Chinese) [周怀安, 杜正伟, 龚克 2006 强激光与粒子束 18 689]
[13]	Chen X, Du Z W, Gong K 2007 High Power Laser Part. Beams 19 449 (in Chinese) [陈曦, 杜正伟, 龚克 2007 强激光与粒子束 19 449]
[14]	Integrated Systems Engineering AG 2004 ISE-TCAD Dessis Simulation User's Manual (Switzerland: Zurich) p129
[15]	Egawa H 1966 IEEE Trans. Electron Dev. 13 754
[16]	Ren X R, Chai C C, Ma Z Y, Yang Y T 2013 J. Xidian Univ. 40 45 (in Chinese) [任兴荣, 柴常春, 马振洋, 杨银堂 2013 西安电子科技大学学报 40 45]
[17]	Fan J P, Zhang L, Jia X Z 2010 High Power Laser Part. Beams 22 1319 (in Chinese) [范菊平, 张玲, 贾新章 2010 强激光与粒子束 22 1319]

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Vol. 62, Issue 6 - 2013-03-20

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