Thermomechanical Reliability Study of Flip Chip Solder Bumps: Using Laser Ultrasound Technique and Finite Element Method

Current techniques for nondestructive quality evaluation of solder bumps in electronic packages are either incapable of detecting solder bump cracks, or unsuitable for in-line inspection due to high cost and low throughput. As an alternative, a solder bump inspection system is being developed at Georgia Institute of Technology using laser ultrasound and interferometric techniques . This system uses a pulsed Nd:YAG laser to induce ultrasound in electronic packages in the thermoelastic regime; it then measures the transient out-of-plane displacement responses on the package surfaces using laser interferometric technique. The quality of solder bumps in electronic packages is evaluated by analyzing the transient responses. This paper presents a systematic study on thermomechanical reliability of flip chip solder bumps using laser ultrasound–interferometric inspection technique and finite element (FE) method. The correlation between the failure parameter extracted from FE simulation for evaluating solder bump reliability and quality degradation characterization of solder bumps through noncontact, nondestructive laser ultrasound testing has also been investigated.