Industrial applications often require failure analysis methods working non-destructively, enabling either a rapid quality control or fault isolation and defect localization prior to detailed defect investigation requiring target preparation. Scanning acoustic microscopy in the frequency range above 100 MHz provides high axial and lateral resolution, a moderate penetration depth and the required non-destructivity. In this study a method for an automated detection of defects in flip-chip contacts was developed. Chip samples were manufactured in flip-chip technology containing a 750 µm thick die with solder balls (80 µm diameter) on top of the substrate. For acoustic inspection a scanning acoustic microscope in combination with a 175 MHz transducer was used. Recorded echo signals were analyzed off-line applying custom-made MATLAB software. For differentiation between flip-chip contacts and the underfill, the recorded echo signals were pre-analyzed. Signals obtained from the contacts we...
S. Brand, P. Czurratis, P. Hoffrogge, M. Petzold