Title :
Technologies for scaling vertical transistor DRAM cells to 70 nm
Author :
Divakaruni, R. ; Radens, C. ; Belyansky, M. ; Chudzik, M. ; Park, D.-G. ; Saroop, S. ; Chidambarrao, D. ; Weybright, M. ; Akatsu, H. ; Economikos, L. ; Settlemyer, K. ; Strane, J. ; Dobuzinsky, D. ; Edleman, N. ; Feng, G. ; Li, Y. ; Jammy, R. ; Crabbe, E.
Author_Institution :
Semicond. R&D Center, IBM Microelectron., Hopewell Junction, NY, USA
Abstract :
Vertical transistor DRAM cells have been demonstrated as viable in the 110 nm generation. This paper describes the issues associated with scaling these cells to the 70 nm node and demonstrates fixes to all known issues. Scaling to 70 nm is possible through the development of two key enabling technologies, high aspect ratio STI fill and low resistance metal deep trench fill, and through minor cell modification. Each of these items are addressed and shown to be viable using a functional 512 Mb prototype DRAM chip at 110 nm half-pitch groundrule. Based on these results, we believe the vertical transistor DRAM cell is one of the most promising for continued scaling of conventional DRAM and embedded DRAM cells.
Keywords :
DRAM chips; isolation technology; 110 nm; 512 MB; DRAM chip; STI fill; half pitch ground rule; minor cell; resistance metal deep trench fil; vertical transistor DRAM cells; Costs; Doping; Isolation technology; Microelectronics; Parasitic capacitance; Prototypes; Random access memory; Research and development; Tin; Voltage;
Conference_Titel :
VLSI Technology, 2003. Digest of Technical Papers. 2003 Symposium on
Conference_Location :
Kyoto, Japan
Print_ISBN :
4-89114-033-X
DOI :
10.1109/VLSIT.2003.1221085
