Board-level solder joint reliability comparison of five unique memory package constructions

Abstract

Sun Microsystems, Inc., investigated the board-level solder joint reliability of five unique package constructions of a 54/62 lead memory package. Following a process optimization study, the 0.8/1.0 mm grid chip scale package (CSP) devices were assembled on a complex test board by an advanced board assembly subcontractor, Suzuka Fuji Xerox. In addition to the numerous CSP devices, the test board also included a variety of flip-chip and wirebond BGA packages, and a ceramic column grid array package; only test results of the CSP devices are reported in this paper. Circuit board solder ball land pad (via-in-pad) diameters of 300 /spl mu/m and 350 /spl mu/m for the 54/62 lead CSP devices were evaluated. Testing also included a comparison between packages reflowed on to the circuit board using a conventional mass reflow furnace, and those using a production rework machine. The circuit board assemblies were temperature cycled between 0/spl deg/C and 100/spl deg/C, and electrically monitored for opens. Summary tables and figures comparing the reliability characteristics of the various chip-scale package constructions were generated.