Microdrilling of through-holes in flexible printed circuits using picosecond ultrashort pulse laser

Abstract

High density and high quality interconnects are necessary for the preparation of miniaturized and lightweight electronic products. Therefore, small-diameter and high-density through-holes in FPCs (Flexible Printed Circuits) are required. However, the current processing methods cannot further decrease the diameters and improve the quality of through-holes. Comparatively, ultrashort pulse laser is a good choice. In this paper, the processing technology for the microdrilling of through-holes in FPCs using a 10 ps pulse laser was systematically studied. The effects of laser parameters, including the wavelength, energy, pulses and polarization, on the drilling of through-holes were investigated. The various processing parameters were optimized and the plausible reasons were discussed. Finally, the desired small-diameter and high-density throughholes in FPCs were obtained. The experimental results showed that, through-holes with diameters of less than 10 μm and inlet interconnection pitches of 0 ~ 2 μm could be successfully drilled in FPCs using ultrashort pulse laser.