Title :
Thermal cycle reliability of stacked via structures with copper metallization and an organic low-k dielectric
Author :
Filippi, R.G. ; McGrath, J.F. ; Shaw, T.M. ; Murray, C.E. ; Rathore, H.S. ; McLaughlin, P.S. ; McGahay, V. ; Nicholson, L. ; Wang, P.-C. ; Lloyd, J.R. ; Lane, M. ; Rosenberg, R. ; Liu, X. ; Wang, Y.-Y. ; Landers, W. ; Spooner, T. ; Demarest, J.J. ; Engel,
Author_Institution :
IBM Microelectron. Div., Hopewell Junction, NY, USA
Abstract :
The reliability of a stacked via chain stressed under various thermal cycle conditions is described. The chain consists of Cu Dual Damascene metallization with SiLK (trademark of Dow Chemical) as the organic low-k dielectric. Failure analysis indicates that cracks form in the Cu vias during thermal cycle stress. Due to the presence of two failure modes, the thermal cycle statistical behavior is described by a bimodal lognormal failure distribution. The thermal cycle lifetime exhibits a strong dependence on the temperature range and a rather weak dependence, on the maximum temperature in the cycle. Evidence of a threshold temperature range below which thermal cycle fails should not occur as well as a correlation between the test structure yield and reliability are also reported.
Keywords :
copper; failure analysis; fatigue cracks; semiconductor device metallisation; semiconductor device reliability; statistical analysis; Cu; Cu Dual Damascene metallization; Cu metallization; bimodal lognormal failure distribution; failure analysis; organic low-k dielectric; reliability; stacked via structures; thermal cycle reliability; thermal cycle statistical behavior; Copper; Dielectrics; Failure analysis; Metallization; Organic chemicals; Temperature dependence; Temperature distribution; Testing; Thermal stresses; Trademarks;
Conference_Titel :
Reliability Physics Symposium Proceedings, 2004. 42nd Annual. 2004 IEEE International
Print_ISBN :
0-7803-8315-X
DOI :
10.1109/RELPHY.2004.1315302
