Title :
Factors affecting the interconnection resistance and yield in multilayer polyimide/copper structures
Author :
Shih, Da-Yuan ; Yeh, Helen L. ; Paraszczak, Jurij ; Lewis, J. ; Graham, W. ; Nunes, S. ; Narayan, C. ; McGouey, R. ; Galligan, Eileen ; Cataldo, John ; Serino, R. ; Perfecto, Eric ; Chang, Chin-An ; Deutsch, Alina ; Rothman, L. ; Ritsko, John J. ; Wilczyn
Author_Institution :
IBM Thomas J. Watson Res. Center, Yorktown Heights, NY, USA
fDate :
2/1/1993 12:00:00 AM
Abstract :
The use of a lift-off technique to fabricate a high-density structure consisting of multiple layers of metal/polyimide thin-film structures on a silicon substrate is described. To achieve better performance and high yield, the process design, the processing parameters, the thickness of the Cr/Cu/Cr metallurgy, and the use of suitable polyimide dielectrics, were evaluated. The plasma processing conditions, the types of passivation metals on Cu, and the use of a siloxane-polyimide as the gap-fill/etch-stop material were all shown to play a critical role in affecting the interconnection resistance and yield of the multilayer thin-film structures. By optimizing these parameters the feasibility of fabricating high-density thin-film wiring layers with good yield is demonstrated
Keywords :
copper; electric resistance; integrated circuit technology; packaging; passivation; polymer films; thin film circuits; Cr-Cu-Cr metallurgy; Si substrate; etch-stop material; gap fill material; high yield; high-density structure; interconnection resistance; lift-off technique; multilayer polyimide/Cu structures; multilayer thin-film structures; passivation metals; plasma processing conditions; polyimide dielectrics; siloxane-polyimide; thin-film structures; thin-film wiring layers; Chromium; Dielectric substrates; Dielectric thin films; Passivation; Plasma applications; Plasma materials processing; Polyimides; Process design; Semiconductor thin films; Silicon;
Journal_Title :
Components, Hybrids, and Manufacturing Technology, IEEE Transactions on
