Temperature dependence of the P-hit single event transient pulse width in a three-transistor inverter chain 被引量：3

Temperature dependence of the P-hit single event transient pulse width in a three-transistor inverter chain

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摘要 A comparison of the temperature dependence of the P-hit single event transient （SET） in a two-transistor （2T） inverter with that in a three-transistor （3T） inverter is carried out based on a three-dimensional numerical simulation. Due to the significantly distinct mechanisms of the single event change collection in the 2T and the 3T inverters, the temperature plays different roles in the SET production and propagation. The SET pulse will be significantly broadened in the 2T inverter chain while will be compressed in the 3T inverter chain as temperature increases. The investigation provides a new insight into the SET mitigation under the extreme environment, where both the high temperature and the single event effects should be considered. The 3T inverter layout structure （or similar layout structures） will be a better solution for spaceborne integrated circuit design for extreme environments. A comparison of the temperature dependence of the P-hit single event transient （SET） in a two-transistor （2T） inverter with that in a three-transistor （3T） inverter is carried out based on a three-dimensional numerical simulation. Due to the significantly distinct mechanisms of the single event change collection in the 2T and the 3T inverters, the temperature plays different roles in the SET production and propagation. The SET pulse will be significantly broadened in the 2T inverter chain while will be compressed in the 3T inverter chain as temperature increases. The investigation provides a new insight into the SET mitigation under the extreme environment, where both the high temperature and the single event effects should be considered. The 3T inverter layout structure （or similar layout structures） will be a better solution for spaceborne integrated circuit design for extreme environments.

作者 Chen Shu-Ming Chen Jian-Jun 陈书明;陈建军(School of Computer Science,National University of Defense Technology,Changsha 410073,China)

机构地区 School of Computer Science

出处《Chinese Physics B》 SCIE EI CAS CSCD 2012年第1期340-345,共6页 中国物理B（英文版）

基金 Project supported by the Key Program of the National Natural Science Foundation of China(Grant No.60836004)

关键词 temperature dependence single event transient parasitic bipolar amplification effect charge sharing collection temperature dependence, single event transient, parasitic bipolar amplification effect,charge sharing collection

分类号 TN32 [电子电信—物理电子学] TM464 [电气工程—电器]

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1Gadlage M J, Ahlbin J R, Narasimham B, Bhuva B L, Massengill L W, Reed R A, Schrimpf R D and Vizkelethy G 2010 IEEE Tran. Nucl. Sci. 57 3336.
2Jagannathan S, Gadlage M J, Bhuva B L, Schrimpf R D, Narasimham B, Chetia J, Ahlbin J R and Massengill L W 2010 IEEE Tran. Nucl. Sci. 57 3386.
3Ahlbin J R, Gadlage M J, Ball D R, Witulski A W, Bhuva BLand Reed R A 2010 IEEE Tran. Nucl. Sci. 57 3380.
4Atkinson N M, Witulski A F and Holman W T 2011 IEEE Tran. Nucl. Sci. 58 885.
5Chen S M, Liang B, Liu B Wand Liu Z 2008 IEEE Trans. Nucl. Sci. 55 2914.
6Gadlage M J, Ahlbin J R, Narasimham B, Ramachandran V, Dinkins C A, Bhuva B L, Schrimpf R D and Shuler R L 2009 Proc. IEEE Int. Rei. Phys. Symp. April 26-30, 2009 Montreal, Canada, p. 170.
7Gadlage M J, Ahlbin J R, Ramachandran V, Gouker P, Dinkins C A, Bhuva B L, Narasimham B, Schrimpf R D, McCurdy M W, Alles M L, Reed R A, Mendenhall M H, Massengill L W, Shuler R L and McMorrow D 2009 IEEE Trans. Nucl. Sci. 56 3115.
8Gadlage M J, Ahlbin J R, Narasimham B, Bhuva B L, Massengill L Wand Schrimpf R D 2011 IEEE Tran. Device Mater. Rei. 11 179.
9Amusan 0 A, Witulski A F, Massengill L W, Bhuva B L, Fleming P R, Alles M L, Sternberg A L, Black J D and Schrimpf R D 2006 IEEE Trans. Nucl. Sci. 53 3253.
10Amusan 0 A, Massengill L W, Bhuva B L, DasGupta S, Witulski A F and Ahlbin J R 2007 IEEE Tran. Nucl. Sci. 54 2060.

同被引文献9

1CHEN JianJun,CHEN ShuMing,LIANG Bin,LIU FanYu.Single event transient pulse attenuation effect in three-transistor inverter chain[J].Science China(Technological Sciences),2012,55(4):867-871. 被引量：4
2QIN JunRui,CHEN ShuMing,CHEN JianJun.3-D TCAD simulation study of the single event effect on 25 nm raised source-drain FinFET[J].Science China(Technological Sciences),2012,55(6):1576-1580. 被引量：3
3HUANG PengCheng,CHEN ShuMing,CHEN JianJun,LIU BiWei.Novel N-hit single event transient mitigation technique via open guard transistor in 65 nm bulk CMOS process[J].Science China(Technological Sciences),2013,56(2):271-279. 被引量：5
4于俊庭,陈书明,陈建军,黄鹏程.Fin width and height dependence of bipolar amplification in bulk FinFETs submitted to heavy ion irradiation[J].Chinese Physics B,2015,24(11):650-655. 被引量：3
5于俊庭,陈书明,陈建军,黄鹏程,宋睿强.Effect of supply voltage and body-biasing on single-event transient pulse quenching in bulk fin field-effect-transistor process[J].Chinese Physics B,2016,25(4):495-500. 被引量：2
6陈伟,杨海亮,郭晓强,姚志斌,丁李利,王祖军,王晨辉,王忠明,丛培天.空间辐射物理及应用研究现状与挑战[J].科学通报,2017,62(10):978-989. 被引量：39
7陈伟,郭晓强,姚志斌,罗尹虹,丁李利,何宝平,王祖军,王晨辉,王忠明,丛培天.空间辐射效应地面模拟等效的关键基础问题[J].现代应用物理,2017,8(2):1-12. 被引量：26
8陈伟,刘杰,马晓华,郭刚,赵元富,郭晓强,罗尹虹,姚志斌,丁李利,王晨辉,陈荣梅,何宝平,赵雯,张凤祁,马武英,翟鹏飞,王祖军,刘天奇,郭红霞,刘建德,杨海亮,胡培培,丛培天,李宗臻.纳米器件空间辐射效应机理和模拟试验技术研究进展[J].科学通报,2018,63(13):1211-1222. 被引量：14
9赵元富,王亮,舒磊,刘家齐,刘琳,岳素格,李同德,李园,顾问.CMOS抗辐射加固集成电路单粒子效应仿真研究进展[J].现代应用物理,2018,9(3):1-9. 被引量：3

引证文献3

1CHEN JianJun,LIANG Bin,CHI YaQing.Experimental characterization of the bipolar effect on P-hit single-event transients in 65 nm twin-well and triple-well CMOS technologies[J].Science China(Technological Sciences),2016,59(3):488-493. 被引量：1
2YU JunTing,CHEN ShuMing,CHEN JianJun,HUANG PengCheng.Simulation analysis of heavy-ion-induced single-event response for nanoscale bulk-Si FinFETs and conventional planar devices[J].Science China(Technological Sciences),2017,60(3):459-466. 被引量：2
3李同德,赵元富,王亮,舒磊,苑靖爽,黄昊,王维.28nm体硅工艺组合逻辑电路单粒子瞬态脉冲宽度研究[J].现代应用物理,2022,13(1):105-109. 被引量：1

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1史柱,王斌,杨博,赵雁鹏,惠思源,刘文平.14 nm pFinFET 器件抗单粒子辐射的加固方法[J].北京航空航天大学学报,2023,49(12):3335-3342.
2杨华锦,陈伟,郭晓强,汤晓斌,陈飞达,张凤祁,王坦.28 nm Polarfire FPGA单粒子瞬态脉冲宽度检测技术研究[J].现代应用物理,2023,14(4):176-183.
3王仕达,张洪伟,唐民,梅博,孙毅.FinFET器件单粒子翻转物理机制研究评述[J].航天器环境工程,2024,41(2):225-233.
4Cheng XIE,Yueyue CHEN,Jianjun CHEN,Jizuo ZHANG.Dependency of well-contact density on MCUs in 65-nm bulk CMOS SRAM[J].Science China(Information Sciences),2019,62(6):171-173.

1Zhang Zhangang Liu Jie Hou Mingdong Sun Youmei Zhao Fazhan Liu Gang Han Zhengsheng Gu Song Liu Tianqi Geng Chao Xi Kai Yao Huijun Luo Jie Duan Jinglai Mo Dan.3 - 26 Threshold Ion Range for Accurate Single Event Upset Measurementin SO1 SRAM Devices[J].IMP & HIRFL Annual Report,2012(1):116-116.
2CHEN JianJun,CHEN ShuMing,LIANG Bin,LIU FanYu.Single event transient pulse attenuation effect in three-transistor inverter chain[J].Science China(Technological Sciences),2012,55(4):867-871. 被引量：4
3王东宏.晶体管推挽式逆变器设计及其应用[J].电气自动化,1998,20(3):26-28. 被引量：1
4杨志强.电压型晶体管逆变器的保护[J].电气自动化,1991(3):58-59. 被引量：1
5王广惠.正弦波PWM控制晶体管逆变器在转差频率控制调速中的应用[J].电力情报,1994(4):45-48.
6Brew.,JB,李卓智.7KW大功率晶体管逆变器[J].国外电力电子技术,1989(4):1-6.
7W.莱昂哈特,吕嗣杰.电流控制感应电动机的转子磁场定向控制[J].电力电子,2004,2(2):29-31.
8伍启学.开关式稳压电源(四)[J].家庭电子,2003(1):36-37.
9王宪源.SILCON NIFE UPS—100系列的原理和应用[J].上海电器技术,1995(3):45-51.
10郭阳,陈建军,何益百,梁斌,刘必慰.The dual role of multiple-transistor charge sharing collection in single-event transients[J].Chinese Physics B,2013,22(4):360-364.

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Temperature dependence of the P-hit single event transient pulse width in a three-transistor inverter chain 被引量：3

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