Title :
Direct chip interconnect with adhesive conductor films
Author :
Basavanhally, Nagesh R. ; Chang, David D. ; Cranston, Ben ; Segar, Steve G., Jr.
Author_Institution :
AT&T Bell Labs., Princeton, NJ, USA
fDate :
12/1/1992 12:00:00 AM
Abstract :
Feasibility study results on direct chip interconnection (DCI) using anisotropic conductive polymer material on both flexible and rigid substrates are discussed. The concept is to simultaneously attach and electrically interconnect IC chips to circuit traces. When conductors are joined under heat and pressure to form a bond, metallic spheres within the adhesive layer make contact with both surfaces but not each other, causing the anisotropic conductivity. Since process parameters (such as temperature, pressure, and cure time) as well as chip/substrate registration are equally critical to the success of making electrical interconnections, a real-time interconnect process monitor and methods to identify the root causes of interconnection failures during, and after, the bonding process were developed. The process monitor and the techniques used to verify the establishment of interconnections are elaborated
Keywords :
VLSI; flip-chip devices; microassembling; packaging; adhesive conductor films; anisotropic conductive polymer material; anisotropic conductivity; bonding process; chip/substrate registration; circuit traces; cure time; die attach; direct chip interconnection; electrical interconnections; electrically interconnect IC chips; failure analysis; feasibility study; flexible substrates; flip-chips; metallic spheres; pressure; process parameters; real-time interconnect process monitor; rigid substrates; temperature; thermocompression bonding; Anisotropic conductive films; Anisotropic magnetoresistance; Bonding; Condition monitoring; Conducting materials; Conductive films; Conductivity; Contacts; Integrated circuit interconnections; Polymers;
Journal_Title :
Components, Hybrids, and Manufacturing Technology, IEEE Transactions on
