TY - GEN
T1 - High reliable and fine size of 5-μm diameter backside Cu through-silicon Via(TSV) for high reliability and high-end 3-D LSIs
AU - Lee, K. W.
AU - Bea, J. C.
AU - Fukushima, T.
AU - Ohara, Y.
AU - Tanaka, T.
AU - Koyanagi, M.
PY - 2011
Y1 - 2011
N2 - The influence of Cu contamination from Cu through-silicon via (TSV) on device reliability in the 3-D LSI was electrically evaluated by capacitance-time (C-t) measurement. The Cu/Ta gate trench capacitors with two types of Ta barrier layers of 10-nm and 100-nm thicknesses (at the surface) were fabricated. The C-t curves of the trench capacitors with 10-nm thick Ta layer were severely degraded even after the initial annealing for 5 min at 300°C. It means that Cu atoms diffuse into the active area from the Cu TSV through scallop portions with extremely thin Ta layer in TSVs, and consequently, the generation lifetime of minority carrier is significantly reduced. However, the C-t curves of the trench capacitors with 100-nm thick Ta layer exhibit no change after annealing up to 60min. Based on the C-t evaluation results, we developed high reliable and fine-size of 5-μm diameter backside Cu TSV to achieve high reliability and high-end 3-D LSIs.
AB - The influence of Cu contamination from Cu through-silicon via (TSV) on device reliability in the 3-D LSI was electrically evaluated by capacitance-time (C-t) measurement. The Cu/Ta gate trench capacitors with two types of Ta barrier layers of 10-nm and 100-nm thicknesses (at the surface) were fabricated. The C-t curves of the trench capacitors with 10-nm thick Ta layer were severely degraded even after the initial annealing for 5 min at 300°C. It means that Cu atoms diffuse into the active area from the Cu TSV through scallop portions with extremely thin Ta layer in TSVs, and consequently, the generation lifetime of minority carrier is significantly reduced. However, the C-t curves of the trench capacitors with 100-nm thick Ta layer exhibit no change after annealing up to 60min. Based on the C-t evaluation results, we developed high reliable and fine-size of 5-μm diameter backside Cu TSV to achieve high reliability and high-end 3-D LSIs.
KW - 3D LSI
KW - Capacitance-time (C-t)
KW - Charge carrier lifetime
KW - Cu diffusion
KW - Cu TSV
UR - http://www.scopus.com/inward/record.url?scp=84866867341&partnerID=8YFLogxK
UR - http://www.scopus.com/inward/citedby.url?scp=84866867341&partnerID=8YFLogxK
U2 - 10.1109/3DIC.2012.6262975
DO - 10.1109/3DIC.2012.6262975
M3 - Conference contribution
AN - SCOPUS:84866867341
SN - 9781467321891
T3 - 2011 IEEE International 3D Systems Integration Conference, 3DIC 2011
BT - 2011 IEEE International 3D Systems Integration Conference, 3DIC 2011
T2 - 2011 IEEE International 3D Systems Integration Conference, 3DIC 2011
Y2 - 31 January 2012 through 2 February 2012
ER -