Decomposed Analysis of the Reliability of Area-Array Electronic Packages Including Assembly Process Effects

Abstract

The research presented in this thesis focuses on the use of a decomposed analysis technique to assess the reliability impact on area-array packages due to assembly process effects. The developed models enable one to determine the equilibrium configuration of electronic packages with warped and non-warped solder joints with significant computational efficiency at a reasonable accuracy. The code described herein uses a nonlinear optimization procedure that ensures the approximate satisfaction of the energy balance equation. The developed procedure is demonstrated on two- and three-dimensional hypothetical and "real-world" electronic packages with warped and non-warped solder joints. It is shown that with the use of the decomposed solution methodology, for a 225 I/O PBGA package with non-warped solder joints, a speedup of nearly seven times is achieved at an accuracy loss in displacements of approximately 5.46%. Since the analysis procedure is independent of the number of solder interconnects, significantly larger time savings are expected for larger packages.

Document Details

Document Type

Technical Report

Publication Date

Oct 30, 2000

Accession Number

ADA384139

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