Title :
Development and electrical investigation of novel fine-pitch Cu/Sn pad bumping using ultra- thin buffer layer technique in 3D integration
Author :
Yu-Sheng Hsieh ; Yao-Jen Chang ; Kuan-Neng Chen
Author_Institution :
Dept. of Electron. Eng., Nat. Chiao Tung Univ., Hsinchu, Taiwan
Abstract :
A high yielding fine-pitch submicron Cu/Sn bonding scheme has been successfully demonstrated. With inserting the ultra-thin buffer layer, near sub-micron thickness Cu/Sn pad bonding can be achieved. The fine pitch Cu/Sn interconnects can be also further extended. The modified Kelvin feature in chip level and tens of thousands series interconnects per chip with a density of 3.4 × 105/cm2 in wafer level are fabricated and completely investigated on electrical characteristics. Several critical reliability assessments, such as TCT and un-bias HAST, are also investigated the variation and standard error of the fine-pitch pad bonding scheme. With excellent mechanical properties, bonding quality, electrical and reliability results, the approach is suitable for future 3D vertical interconnects.
Keywords :
buffer layers; copper alloys; fine-pitch technology; integrated circuit bonding; integrated circuit interconnections; integrated circuit reliability; integrated circuit yield; three-dimensional integrated circuits; tin alloys; 3D integration; 3D vertical interconnects; Cu-Sn; HAST; Kelvin feature; TCT; bonding quality; fine pitch interconnects; high yielding fine-pitch bonding scheme; mechanical properties; reliability assessments; ultra-thin buffer layer; wafer level; Bonding; Integrated circuit interconnections; Kelvin; Semiconductor device reliability; Tin;
Conference_Titel :
Electronic Components and Technology Conference (ECTC) , 2015 IEEE 65th
Conference_Location :
San Diego, CA
DOI :
10.1109/ECTC.2015.7159651
