Title :
Key enabling processes for more-than-moore technologies
Author :
Lindner, Philipp ; Glinsner, T. ; Uhrmann, Thomas ; Dragoi, Viorel ; Plach, T. ; Matthias, T. ; Pabo, E. ; Wimplinger, M.
Author_Institution :
EV Group, St. Florian am Inn, Austria
Abstract :
The continuation of Moore´s law by conventional complementary metal oxide semiconductor (CMOS) scaling is becoming more and more challenging, requiring huge capital investments. 3D-IC with through-silicon via (TSV) interconnects provides another path towards “More Than Moore” with relatively smaller capital investment. Recent announcements from leading image sensor and memory manufacturers show that 3D-ICs are finally moving into high-volume manufacturing (HVM) putting “More Than Moore” in reality. Wafer bonding is the enabling process technology to make this happen. Two of the key wafer bonding techniques - low temperature fusion bonding as well as temporary bonding and de-bonding are the major subject of this contribution, introducing basic process flows and working principles for their CMOS integration.
Keywords :
CMOS integrated circuits; integrated circuit interconnections; three-dimensional integrated circuits; wafer bonding; 3D-IC; CMOS scaling; HVM; Moore law; TSV interconnects; capital investment; complementary metal oxide semiconductor scaling; high-volume manufacturing; image sensor; low temperature fusion bonding; memory manufacturers; more-than-Moore technology; through-silicon via interconnects; wafer bonding techniques; Annealing; Bonding; Plasma temperature; Surface treatment; Wafer bonding; More-than-Moore; debonding; direct bonding; fusion bonding; low-temperature; temporary bonding;
Conference_Titel :
SOI Conference (SOI), 2012 IEEE International
Conference_Location :
NAPA, CA
Print_ISBN :
978-1-4673-2690-2
Electronic_ISBN :
1078-621X
DOI :
10.1109/SOI.2012.6404360
