Flip-chip solder bump fatigue life enhanced by polymer encapsulation

Abstract

Encapsulation of controlled collapse chip connection (C4) joints, using a filled epoxy resin having a matched coefficient of thermal expansion (CTE), has provided a substantial increase in the life of C4 joints in accelerated thermal cycle (ATC) fatigue testing on both low-CTE organic and ceramic chip carriers. The C4 joints are encapsulated by dispensing a bead of resin along an edge of the chip. The encapsulation flows underneath the chip by capillary action and completely fills the gap between the chip and the substrate. Optimization of the filler size distribution and resin rheology to get consistent flow under the chip without any bubbles is discussed. The filler size distribution and flow under the chip are shown to cross sections of several different materials including low-alpha-emitting encapsulants for memory applications. Novel encapsulant formulations were tested by videotaping the flow of encapsulant under transparent quartz chips. The formation of bubbles as the encapsulant flows around the C4 joints and irregularities in the surface of the substrate can clearly be seen. Proper C4 encapsulation provides virtually complete coverage around all C4 connections. C4 life testing over various temperature ranges show a 5 to 10 times improvement for both memory and logic footprints when the C4 joints are encapsulated. The vast improvement in C4-joint reliability provided by encapsulation allows the C4 technology to be extended to much larger chips or to higher service-temperature ranges without conventional DNP (distance from neural point) constraints.<>