Title :
Modeling of self-alignment mechanism in flip-chip soldering. II. Multichip solder joints
Author :
Patra, S.K. ; Lee, Y.C.
Author_Institution :
Dept. of Mech. Eng., Colorado Univ., Boulder, CO, USA
Abstract :
A mathematical model to study the self-alignment behavior between a chip and a substrate connected by multiple solder joints is established. This dynamic model is capable of providing the oscillation frequency and amplitude of the chip motion, and characterizing the effects of different joint sizes. This model calculates the dynamics balance between the restoring force for self-alignment, viscous damping force resulting from friction of molten solder, and chip inertia. The developed model is capable of simulating the chip movement, and changing profiles of solder joints and misalignment levels at each time step during the reflow. This model has been used to understand two challenging applications: optical alignment demanding a 1 μm accuracy and low-cost flip-chip soldering with alignment joints
Keywords :
flip-chip devices; integrated circuit technology; microassembling; modelling; soldering; chip motion; dynamic model; flip-chip soldering; hybrid IC; mathematical model; multichip solder joints; optical alignment; oscillation amplitude; oscillation frequency; self-alignment mechanism; Damping; Electronics packaging; Equations; Friction; Mathematical model; Mechanical engineering; Optical surface waves; Semiconductor device modeling; Soldering; Surface tension;
Conference_Titel :
Electronic Components and Technology Conference, 1991. Proceedings., 41st
Conference_Location :
Atlanta, GA
Print_ISBN :
0-7803-0012-2
DOI :
10.1109/ECTC.1991.163969
