Title :
Studies on CO2 laser drilling: formation mechanism of residual thin materials at the bottom of laser via
Author :
Inaba, Ryoji ; Kawamura, Toshinori ; Akahoshi, Haruo ; Arai, Kunio
Author_Institution :
Res. Lab., Hitachi Ltd., Ibaraki, Japan
fDate :
1/1/2001 12:00:00 AM
Abstract :
Formation mechanism of residual thin materials at the bottom of a microvia processed with CO2 laser is studied with a bromine (Br)-containing epoxy film designed for sequential build-up printed wiring boards. By observing Br content distribution in a cross section of the epoxy film after laser processing, it is estimated that the film around the via is heated up to 1600 K and that the residual thin film at the bottom of the via is heated up to 2000 K upon laser irradiation. Based on heat transfer simulations for epoxy and copper layer structures, the epoxy film within a 0.1-μm distance from the copper surface is unable to be removed by laser irradiation because the temperature of this region cannot be heated above the decomposition temperature of ≈2500 K due to a large heat flow from the epoxy layer to the copper
Keywords :
heat transfer; laser beam machining; printed circuit manufacture; temperature measurement; 1600 K; 2000 K; CO2; decomposition temperature; formation mechanism; heat flow; heat transfer simulations; laser drilling; laser irradiation; laser via; microvia; residual thin materials; sequential build-up printed wiring boards; Chemical lasers; Copper; Drilling; Heat transfer; Insulation; Optical materials; Ring lasers; Surface emitting lasers; Temperature; Wiring;
Journal_Title :
Electronics Packaging Manufacturing, IEEE Transactions on
DOI :
10.1109/6104.924791
