Dynamics of Free Air Ball Formation in Thermosonic Wire Bonding

In thermosonic wire bonding, a free air ball (FAB) created by electronic flame-off (EFO) is crucial to a reliable first bond. To reveal the mechanisms of FAB and ripple formation, the dynamic FAB formation process was monitored and analyzed with a high-speed camera and digital data acquisition system. FAB formation was found to occur in four stages: initiation, preheating, melting, and solidification. The FAB formation speed and model depend only on the EFO current. The FAB formation speed can be as high as 90.4 μm/ms at an EFO current of 60 mA. A minimum EFO time is required for FAB formation, which depends on the EFO current. A semiempirical model FAB=ηln[I(t - 0.5 t_min)]- c, was developed to describe the relationship between the FAB size and the EFO time at different EFO currents. The ripple formation mechanism was investigated by analyzing the solidification stage images. Transient droplet vibration caused by high-speed rolling-up and skin-forming solidification in the molten gold drop caused by a large temperature gradient are two major factors in ripple formation. This analysis is expected to be useful for understanding the FAB formation mechanism and optimizing the EFO parameters.