Title :
Micro-XRD investigation of fine-pitch Cu-TSV induced thermo-mechanical stress in high-density 3D-LSI
Author :
Murugesan, M. ; Fukushima, T. ; Bea, J.C. ; Lee, K.W. ; Koyanagi, M. ; Imai, Y. ; Kimura, S. ; Tanaka, T.
Author_Institution :
Global INTegration Inst. (GINTI), Tohoku Univ., Sendai, Japan
Abstract :
3D-LSI stack containing diametrically highly-scaled through-silicon-vias (TSVs) with diameter 2μm as well as conventional 20 μm-width Cu-TSVs were carefully studied for the thermo-mechanical stress induced by Cu-TSVs via micro-X-ray diffraction using synchrotron radiation at Spring-8. It was observed that the TSV diameter has huge impact on the magnitude of resultant thermo-mechanical stress. The 20 μm-width Cu-TSV has induced more than -1500 MPa of stress in the vicinal Si, while the 2 μm-width Cu-TSV induced less than -10 MPa of compressive stress in the surrounding Si. Therefore by decreasing the TSV diameter, one can virtually eliminate the thermo-mechanical stress induced by TSV.
Keywords :
VLSI; X-ray diffraction; copper; elemental semiconductors; integrated circuit testing; silicon; synchrotron radiation; thermal stresses; three-dimensional integrated circuits; 3D-LSI stack; Cu; Cu-TSV; Si; Spring-8; compressive stress; highly-scaled through-silicon-vias; micro-X-ray diffraction; micro-XRD investigation; size 2 mum; size 20 mum; synchrotron radiation; thermo-mechanical stress; Lattices; Silicon; Strain; Stress; Thermomechanical processes; Through-silicon vias; X-ray imaging; fine-pitch; micro - X-ray diffraction; thermo-mechanical stress; through-Si-via;
Conference_Titel :
3D Systems Integration Conference (3DIC), 2014 International
DOI :
10.1109/3DIC.2014.7152158
