Laser‐assisted bonding (LAB) is an advanced technology in which a homogenized laser beam is selectively applied to a chip. Previous researches have demonstrated the feasibility of using a single‐tier LAB process for 3D through‐silicon via (TSV) integration with nonconductive paste (NCP), where each TSV die is bonded one at a time. A collective LAB process, where several TSV dies can be stacked simultaneously, is developed to improve the productivity while maintaining the reliability of the solder joints. A single‐tier LAB process for 3D TSV integration with NCP is introduced for two different values of laser power, namely 100 W and 150 W. For the 100 W case, a maximum of three dies can be collectively stacked, whereas for the 150 W case, a total of six tiers can be simultaneously bonded. For the 100 W case, the intermetallic compound microstructure is a typical Cu‐Sn phase system, whereas for the 150 W case, it is asymmetrical owing to a thermogradient across the solder joint. The collective LAB process can be realized through proper design of the bonding parameters such as laser power, time, and number of stacked dies.
TSV chips were designed and fabricated to investigate the effects of the types of the stacking process on the manufacturability. Two processes were compared: thermocompression and laser bonding. The pitch of UBMs, solder bumps, and TSVs were 50μm. A fluxing underfill was developed and used as a pre-applied underfill during the stacking process. The bonding profiles and the solder joint morphology based on the thermocompression and the laser bonding were compared.
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