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静电放电应力下深亚微米栅接地NMOSFET源端热击穿机理
引用本文:朱志炜,郝跃,方建平,刘红侠. 静电放电应力下深亚微米栅接地NMOSFET源端热击穿机理[J]. 西安电子科技大学学报(自然科学版), 2006, 33(6): 911-916
作者姓名:朱志炜  郝跃  方建平  刘红侠
作者单位:西安电子科技大学宽禁带半导体材料与器件教育部重点实验室,陵西西安710071
摘    要:基干静电敲电应力下对深亚微米硅化物工艺栅接地NMOSFET的研究,考虑了源/漏寄生串连电阻的影响,建立了源/漏接触区的电流集中模型.由模型分析表明,不同的温度和掺杂条件下,源/漏寄生串连电阻会引起器件源/漏接触前端边缘附近产生不同程度的电流集中.在器件源端产生新的热点.影响了源/满端的击穿特性.很好地解释了栅接地NMOSFET的源端热击穿机理.

关 键 词:静电放电  热击穿  接触电阻
文章编号:1001-2400(2006)06-0911-06
收稿时间:2006-03-07
修稿时间:2006-03-07

Investigation of the source-side thermal breakdown mechanism in the deep submicron technology GGNMOSFET under ESD conditions
ZHU Zhi-wei,HAO Yue,FANG Jian-ping,LIU Hong-xia. Investigation of the source-side thermal breakdown mechanism in the deep submicron technology GGNMOSFET under ESD conditions[J]. Journal of Xidian University, 2006, 33(6): 911-916
Authors:ZHU Zhi-wei  HAO Yue  FANG Jian-ping  LIU Hong-xia
Affiliation:Ministry of Edu. Key Lab. of Wide Band-Gap Semiconductor Materials and Devices, Xidian Univ., Xi’an 710071, China ;
Abstract:Based on the investigation of the deep-submicron silicided GGNMOSFET under ESD stress, s current crowding model at the edge of source/drain contact is presented, which includes the impact of parasitic series resistance. The model indicates that current crowding can be found in the front edge of the source/drain contact because of different device temperatures and doping concentrations of the diffusion, so a new hot spot starts to develop in the source and the thermal breakdown characteristics of the source/ drain are affected at the same time. The source-side thermal breakdown mechanism of the devices can be explained well by this model.
Keywords:ESD  thermal breakdown  contact resistance
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