Title :
Low Cost of Ownership scalable copper Direct Bond Interconnect 3D IC technology for three dimensional integrated circuit applications
Author :
Enquist, P. ; Fountain, G. ; Petteway, C. ; Hollingsworth, A. ; Grady, H.
Author_Institution :
Ziptronix, Inc., Morrisville, NC, USA
Abstract :
This paper presents preliminary results of a copper-based direct bond interconnect (DBIreg) 3D integration process that has been developed to leverage foundry standard copper dual damascene and Ziptronix bond technology to achieve scalable, very low Cost-of-Ownership, 3D interconnects with minimum foundry adoption barrier. Results achieved include 100% operable arrays of 72,500 3D copper DBIreg interconnections on a 25 micron pitch with a 125degC thermal budget and 10 micron pitch 3D copper DBIreg interconnections with a 350degC thermal budget. DBIreg contact resistance and resistivity achieved are < 50 mOhm / connection and < 0.45 Ohm-um2, respectively, using three or four micron diameter Cu DBIreg plugs and a TiW barrier layer. Reliability results include bare die that pass temperature cycling and HAST JEDEC tests.
Keywords :
contact resistance; copper; integrated circuit bonding; integrated circuit interconnections; integrated circuit reliability; titanium alloys; tungsten alloys; 3D IC technology; Cu; HAST JEDEC tests; TiW; Ziptronix bond technology; barrier layer; contact resistance; copper-based direct bond interconnect; leverage foundry standard copper dual damascene; reliability; resistivity; size 10 mum; size 25 mum; size 3 mum; size 4 mum; temperature 125 degC; temperature 350 degC; temperature cycling; thermal budget; three-dimensional integrated circuit applications; Application specific integrated circuits; Bonding; Contact resistance; Copper; Costs; Foundries; Integrated circuit interconnections; Integrated circuit technology; Standards development; Three-dimensional integrated circuits; Bonding; Direct Bond Interconnect; Direct Bonding; Direct Copper Bonding; Direct Internal Metal Thermo-Compression Bonding; Direct Metal Bonding; Direct Oxide Bonding; Fine Pitch 3D Interconnect; Heterogeneous Integration; Molecular Bonding; Non-Adhesive Bonding; Reliability;
Conference_Titel :
3D System Integration, 2009. 3DIC 2009. IEEE International Conference on
Conference_Location :
San Francisco, CA
Print_ISBN :
978-1-4244-4511-0
Electronic_ISBN :
978-1-4244-4512-7
DOI :
10.1109/3DIC.2009.5306533
