Title :
Asymmetric Keep-Out Zone of Through-Silicon Via Using 28-nm Technology Node
Author :
Jhih-Yang Yan ; Sun-Rong Jan ; Yi-Chung Huang ; Huang-Siang Lan ; Huang, Y.-H. ; Bigchoug Hung ; Chan, K.-T. ; Huang, Michael ; Yang, M.-T. ; Liu, C.W.
Author_Institution :
Dept. of Electr. Eng., Nat. Taiwan Univ., Taipei, Taiwan
Abstract :
The performance variation caused by the stress field near a through-silicon via (TSV) is measured using 28-nm node devices across 12-in wafers. The TSV is fabricated by a via-last process. The back-end-of-line dielectrics on TSV cause the asymmetric stress field, i.e., the absolute value of radial stress (|σr|) does not equal to that of tangential stress (|σθ|) on silicon and leads to the asymmetric keep-out zone (KOZ), different from previously reported. A modified KOZ model with the asymmetric radial and tangential stress field is proposed and verified by 3-D finite-element analysis simulation and experiment data. The physics behind the asymmetry is also described. Comparable KOZ size for nFETs and pFETs is observed.
Keywords :
finite element analysis; three-dimensional integrated circuits; 3-D finite-element analysis; asymmetric keep-out zone; asymmetric radial stress field; back-end-of-line dielectrics; tangential stress field; through-silicon via; Analytical models; CMOS integrated circuits; Dielectric measurement; Dielectrics; Internal stresses; Silicon; 28nm node; Asymmetric keep-out zone; Through-silicon via; Via-last; through-silicon via; via-last;
Journal_Title :
Electron Device Letters, IEEE
DOI :
10.1109/LED.2015.2456179
