Title :
Repair of circuits by laser seeding and constriction induced plating
Author :
Partridge, Julian P. ; Hussey, Brian ; Chen, Julian ; Gupta, Arunava
Author_Institution :
IBM, Austrin, TX, USA
fDate :
4/1/1992 12:00:00 AM
Abstract :
A method of repairing circuit opens on printed circuit boards which is particularly suitable for low-melting-point substrates with small linewidth is proposed. The two-step repair process involves depositing a solid film organometallic over the open defect and forming a metallic layer by localized laser pyrolysis. After cleaning, the part is immersed in acid copper electrolyte and an increasing alternating current passed through the defective line. As a consequence of the construction-induced temperature rise, copper deposition occurs at the defect which restores the electrical and mechanical integrity of defective copper circuitry. Factors determining the selection of suitable precursors are discussed, and three potential compounds for laser seeding are evaluated. The process has been demonstrated on low-melting-point dielectrics such as polytetrafluoroethylene, polyimide, and glass-epoxy and has been found suitable for linewidths as small as 25 μm
Keywords :
electroplating; laser beam applications; printed circuit manufacture; pyrolysis; circuit opens; constriction induced plating; defective copper circuitry; electrical integrity; glass-epoxy; laser seeding; linewidth; localized laser pyrolysis; low-melting-point substrates; mechanical integrity; polyimide; polytetrafluoroethylene; printed circuit boards; Bonding; Chemical lasers; Copper; Dielectric materials; Electronics packaging; Optical materials; Printed circuits; Solid lasers; Substrates; Temperature;
Journal_Title :
Components, Hybrids, and Manufacturing Technology, IEEE Transactions on
