A 300-mm wafer-level three-dimensional integration scheme using tungsten through-silicon via and hybrid Cu-adhesive bonding

Authors :: C.T. Ryan
Xiaoxiong Gu
Steven J. Koester
Kuan-Neng Chen
Arthur G. Merryman
D.A. Dipaola
Kwong Hon Wong
Wilfried Haensch
J.A. Hagan
Albert M. Young
Fei Liu
Leathen Shi
David F. Brown
J.P. Doyle
R.R. Yu
Sampath Purushothaman
Xinhui Wang
Xiaolin Li
Eric D. Perfecto
N. Klymko
Robert L. Wisnieff
Kimberley A. Kelly
Minhua Lu
Source :: 2008 IEEE International Electron Devices Meeting.
Publication Year :: 2008
Publisher :: IEEE, 2008.
Abstract: A 300-mm wafer-level three-dimensional integration (3DI) process using tungsten (W) through-silicon vias (TSVs) and hybrid Cu/adhesive wafer bonding is demonstrated. The W TSVs have fine pitch (5 mum), small critical dimension (1.5 mum), and high aspect ratio (17:1). A hybrid Cu/adhesive bonding approach, also called transfer-join (TJ) method, is used to interconnect the TSVs to a Cu BEOL in a bottom wafer. The process also features thinning of the top wafer to 20 mum and a Cu backside BEOL on the thinned top wafer. The electrical and physical properties of the TSVs and bonded interconnect are presented and show RLC values that satisfy both the power delivery and high-speed signaling requirements for high-performance 3D systems.

Subjects :: Interconnection
Materials science
Through-silicon via
Adhesive bonding
business.industry
Wafer bonding
chemistry.chemical_element
Tungsten
chemistry
Electronic engineering
Optoelectronics
Wafer
Adhesive
business
Wafer-level packaging

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