Comprehensive 3D TSV Reliability Study on 14nm FINFET Technology with Thinned Wafers

被引:0
|
作者
Premachandran, C. S. [1 ]
Cimino, Salvatore [1 ]
Ogdan, Sean [1 ]
Wu, Zhuo-Jie [1 ]
Smith, Daniel [1 ]
Kannan, Sukesh [1 ]
Cao, Linjun [1 ]
Prabhu, Manjunatha [1 ]
Yao, Walter [1 ]
Ranjan, Rakesh [1 ]
England, Luke [1 ]
Justison, Patrick [1 ]
机构
[1] GLOBALFOUNDRIESUS Inc, 400 Stone Break Rd Extens, Malta, NY 12020 USA
来源
2018 IEEE 2ND ELECTRON DEVICES TECHNOLOGY AND MANUFACTURING CONFERENCE (EDTM 2018) | 2018年
关键词
D O I
暂无
中图分类号
TM [电工技术]; TN [电子技术、通信技术];
学科分类号
0808 ; 0809 ;
摘要
The impact of wafer level reliability of TSV has been studied with respect to FEOL (Front End of Line) and BEOL (Back End of Line) reliability. A TSV keep out zone (KOZ) study has been done with varying gate length and width of transistor. Gate voltage (Vg) vs saturation current (Idsat) behavior indicates that there is negligible impact on Idsat due to mechanical stress of the TSV for Sum KOZ for both NFET and PFET devices fabricated with thin and thick gate-oxide dielectric. Voltage Ramp Stress (VRS) and Constant Voltage Stress (CVS) tests were performed at 25 degrees C and 125 degrees C to study the FEOL gate dielectric and device reliability such as gate dielectric breakdown voltage (VBD), Hot Carrier Injection (HCI), and Bias Temperature Instability (BTI). Apart from FEOL reliability study, special test structures were also designed to capture even a minor TSV impact on the lower metal and via levels of the BEOL stack. Time Dependent Dielectric Breakdown (TDDB), Electro migration (EM), and Stress Migration (SM) were performed to investigate any potential impact to BEOL due to TSV mechanical stress or Cu pumping effects. TSV KOZ impact on electrostatic discharge (ESD) protection devices was also performed. Our study with thick and thin TSV wafer showed no significant impact of TSV integration approach on FEOL, BEOL and ESD reliability.
引用
收藏
页码:37 / 40
页数:4
相关论文
共 50 条
  • [1] Monolithic 3D IC vs. TSV-based 3D IC in 14nm FinFET Technology
    Samal, Sandeep Kumar
    Nayak, Deepak
    Ichihashi, Motoi
    Banna, Srinivasa
    Lim, Sung Kyu
    2016 IEEE SOI-3D-SUBTHRESHOLD MICROELECTRONICS TECHNOLOGY UNIFIED CONFERENCE (S3S), 2016,
  • [2] Impact of TSV Integration on 14nm FinFET Device Performance
    England, Luke
    Kannan, Sukeshwar
    Agarwal, Rahul
    Smith, Daniel
    2016 IEEE INTERNATIONAL 3D SYSTEMS INTEGRATION CONFERENCE (3DIC), 2016,
  • [3] 14nm FinFET Technology for Analog and RF Applications
    Singh, J.
    Bousquet, A.
    Ciavatti, J.
    Sundaram, K.
    Wong, J. S.
    Chew, K. W.
    Bandyopadhyay, A.
    Li, S.
    Bellaouar, A.
    Pandey, S. M.
    Zhu, B.
    Martin, A.
    Kyono, C.
    Goo, J. -S.
    Yang, H. S.
    Mehta, A.
    Zhang, X.
    Hu, O.
    Mahajan, S.
    Geiss, E.
    Yamaguchi, S.
    Mittal, S.
    Asra, R.
    Balasubramaniam, P.
    Watts, J.
    Harame, D.
    Todi, R. M.
    Samavedam, S. B.
    Sohn, D. K.
    2017 SYMPOSIUM ON VLSI TECHNOLOGY, 2017, : T140 - T141
  • [4] Impact of TSV Process on 14nm FEOL and BEOL Reliability
    Kannan, Sukeshwar
    Premachandran, C. S.
    Smith, Daniel
    Ranjan, Rakesh
    Cimino, Salvatore
    Yeap, Kong Boon
    Wu, George
    Cao, Linjun
    Prabhu, Manjunatha
    Agarwal, Rahul
    Yao, Walter
    England, Luke
    Justison, Patrick
    2017 IEEE INTERNATIONAL RELIABILITY PHYSICS SYMPOSIUM (IRPS), 2017,
  • [5] 14NM FINFET DEVICE ELECTRONIC STUDY
    Xie, Xinyun
    Ju, Jianhua
    2016 CHINA SEMICONDUCTOR TECHNOLOGY INTERNATIONAL CONFERENCE (CSTIC), 2016,
  • [6] SRAM stability design comprehending 14nm FinFET Reliability
    Bae, Choelhwyi
    Pae, Sangwoo
    Yu, Cheong-sik
    Kim, Kangjung
    Kim, Yongshik
    Park, Jongwoo
    2015 IEEE INTERNATIONAL RELIABILITY PHYSICS SYMPOSIUM (IRPS), 2015,
  • [7] HCI improvement on 14nm FinFET IO device by optimization of 3D junction profile
    Wan, Xinggon
    Zhu, Baofu
    Mohan, Meera
    Wu, Keija
    Choi, Dongil
    Gondal, Arfa
    2019 IEEE INTERNATIONAL RELIABILITY PHYSICS SYMPOSIUM (IRPS), 2019,
  • [8] FINFET TECHNOLOGY: OVERVIEW AND STATUS AT 14NM NODE AND BEYOND
    Chi, Min-hwa
    2016 CHINA SEMICONDUCTOR TECHNOLOGY INTERNATIONAL CONFERENCE (CSTIC), 2016,
  • [9] Embedded NVM Technology at BEOL for 14nm FinFET and beyond
    Chi, Min-hwa
    2016 INTERNATIONAL WORKSHOP ON INFORMATION DATA STORAGE AND TENTH INTERNATIONAL SYMPOSIUM ON OPTICAL STORAGE, 2016, 9818
  • [10] FIN BENDING MECHANISM INVESTIGATION FOR 14NM FINFET TECHNOLOGY
    Li, Cheng
    Zhao, Hai
    Mao, Gang
    2017 CHINA SEMICONDUCTOR TECHNOLOGY INTERNATIONAL CONFERENCE (CSTIC 2017), 2017,
12345