The High Density Packaging Users Group conducted a substantial study of the solder joint reliability of high‐density packages using lead‐free solder. The design, material, and assembly process aspects of the project are addressed in this paper. The components studied include many surface mount technology package types, various lead, and printed circuit board finishes and paste‐in‐hole assembly.
PurposeThe purpose of this paper is to discuss the design, materials, and assembly process aspects of a study, conducted by The High Density Packaging Users Group Consortium, into process development and solder joint reliability of high‐density packages on printed circuit boards using a low‐melting temperature lead‐free solder (Sn‐57 wt%Bi‐1 wt%Ag).Design/methodology/approachThe components studied include several SMT package types and various lead configurations. The assembly process addresses the low‐temperature lead‐free assembly process, inspection and analysis of these boards and packages.FindingsIt was found that, the assembly process of the SnBiAg lead‐free test boards is very robust and the assembly yield is almost 100 percent.Originality/valueThe paper is of value by presenting a description of the rationale and material set used for an experiment to test SMT assembly and reliability characteristics using the 57Bi‐42Sn‐1Ag alloy, which has a melting point of 139°C.
The mechanical and thermal responses of encapsulated flip chip solder bumps on a surface laminar circuit (SLC) board have been determined in this study. The mechanical responses of the solder bumps and encapsulant have been obtained by shear, tension and torsion tests. The thermal stress and strain in the solder bumps and encapsulant have been determined by a non‐linear finite element method and the thermal fatigue life of the corner solder bump is then estimated based on the calculated plastic strains, Coffin‐Manson law and isothermal fatigue data of solders. Also, an assembly process of the test boards is presented.
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About Emerald www.emeraldinsight.comEmerald is a global publisher linking research and practice to the benefit of society. The company manages a portfolio of more than 290 journals and over 2,350 books and book series volumes, as well as providing an extensive range of online products and additional customer resources and services.Emerald is both COUNTER 4 and TRANSFER compliant. The organization is a partner of the Committee on Publication Ethics (COPE) and also works with Portico and the LOCKSS initiative for digital archive preservation.ABSTRACT -A no-clean mass reflow process for 396-pin, 324-pin and 225-pin over moulded plastic pad array carriers (OMPACs) or plastic ball grid array (BGA) is presented. Emphasis is placed on the OMPAC assembly parameters such as the design, material and process of the packages and printed circuit board (PCB), solder paste, stencil design, printing technology, pick and place, mass re-flow and inspection. Furthermore, cross-sections and the 'popcorn' effect of the OMPAC assembly are provided and discussed.
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