Online-offline laser ultrasonic quality inspection tool for multi-layer chip capacitors

Abstract

The advent of surface mounted devices has allowed continued size decreases in electronic packages. However, the decrease in device size has led to other manufacturing problems. Therefore, as devices decrease in size, inspection technology must be developed to maintain consistent levels of quality without increasing manufacturing process time. The focus of most inspection technology is on finding defects with solder joint interconnects, but some devices, such as multi- layer chip capacitors (MLCCs), have failures not relating to the solder connection. Defects in MLCCs, known as flex cracks, are commonly caused by manufacturing processes, and no current means of detection exists, unless the cracks cause a device to fail a functional test. A laser ultrasonic and interferometric system, providing a non-contact, nondestructive and online approach for microelectronic package quality inspection, is designed and presented. A pulsed infrared laser excites a specimen into vibration through laser-generated ultrasound, and the vibration displacement is measured using an interferometer. Differentiation between acceptable and unacceptable devices is achieved using signal-processing techniques that compare waveforms between two devices. Results are presented or a case study involving MLCCs that have intentionally induced flex cracks, causing the devices to fail. The system has the capability of detecting open connections and flex cracks in the MLCC packages.