Title :
Popcorning: a failure mechanism in plastic-encapsulated microcircuits
Author :
Gallo, Anthony A. ; Munamarty, Ramesh
Author_Institution :
Dexter Electron. Mater., Olean, NY, USA
fDate :
9/1/1995 12:00:00 AM
Abstract :
Popcorning is a failure mechanism in plastic-encapsulated microcircuits. It occurs when the inherently hygroscopic encapsulant is rapidly exposed to high temperatures during reflow solder assembly of the component to a printed circuit card. At these temperatures the moisture absorbed by the molding compound vaporizes and rapidly expands leading to the development of high stresses. When these stresses exceed both the interfacial adhesion strength and the fracture toughness of the molding compound, delamination and cracking result. Cracking is accompanied by a characteristic pop sound (and thus the name popcorning). Popcorning can: lead to a long-term reliability problem, since the cracks can be a path for ionic contaminants, causing corrosion-induced failures; and result in sheared or cratered ball bonds, causing electrical failures
Keywords :
adhesion; cracks; encapsulation; failure analysis; fracture toughness; integrated circuit packaging; integrated circuit reliability; plastic packaging; reflow soldering; soldering; corrosion-induced failures; cratered ball bonds; delamination; electrical failures; failure mechanism; fracture toughness; high stresses; high temperatures; hygroscopic encapsulant; interfacial adhesion strength; ionic contaminants; long-term reliability problem; molding compound; plastic-encapsulated microcircuits; popcorning; printed circuit card; reflow solder assembly; sheared ball bonds; Assembly; Copper alloys; Delamination; Failure analysis; Iron; Lead; Plastics; Reflow soldering; Stress; Temperature;
Journal_Title :
Reliability, IEEE Transactions on
