Title :
A study of formation and failure mechanism of CMP scratch induced defects on ILD in a W-damascene interconnect SRAM cell
Author :
Soon-Moon Jung ; Uom, Jung-Sup ; Cho, Won Suek ; Bae, Yong-Joon ; Chung, Yeon-Kyu ; Yu, Kwang-Suk ; Kim, Kil-Yeon ; Kim, Kyung-Tat
Author_Institution :
SRAM Team, Samsung Electron. Co. Ltd., Yongin City, South Korea
Abstract :
In this study, we investigated the reliability failure mechanism of CMP induced defects in SRAM. A high temperature operating life (HTOL) accelerated test was performed to examine the long-term reliability. It was found that the CMP scratches could cause not only an initial failure but also a fatal long-term reliability failure. The failure mechanism is similar to time dependent dielectric breakdown. The defects result in single bit failures during the accelerated test by node-to-node shorting or node-to-power line shorting in SRAM cells. These defects could not be screened without a very large electric field stress like oxide failure. Novel CMP scratch free W-damascene technology was developed to eliminate the potential defects completely during the fabrication process. It was applied to 8 Mbit low power SRAM products and improved the reliability dramatically
Keywords :
SRAM chips; chemical mechanical polishing; dielectric thin films; failure analysis; integrated circuit interconnections; integrated circuit metallisation; integrated circuit reliability; life testing; tungsten; CMP induced defects; CMP scratch free W-damascene technology; CMP scratch induced defects; CMP scratches; HTOL accelerated test; ILD; SRAM; SRAM cells; W; W-damascene interconnect SRAM cell; accelerated test; defect elimination; electric field stress; fabrication process; failure mechanism; fatal long-term reliability failure; high temperature operating life accelerated test; initial failure; long-term reliability; low power SRAM products; node-to-node shorting; node-to-power line shorting; oxide failure; reliability; reliability failure mechanism; single bit failures; time dependent dielectric breakdown; Abrasives; Chemical technology; Dielectric breakdown; Failure analysis; Life estimation; Planarization; Random access memory; Slurries; Stress; Testing;
Conference_Titel :
Reliability Physics Symposium, 2001. Proceedings. 39th Annual. 2001 IEEE International
Conference_Location :
Orlando, FL
Print_ISBN :
0-7803-6587-9
DOI :
10.1109/RELPHY.2001.922879
