DocumentCode
3522140
Title
Warpage prediction of fine pitch BGA by finite element analysis and shadow moiré technique
Author
Xue, Ke ; Wu, Jingshen ; Chen, Haibin ; Gai, Jingbo ; Lam, Angus
Author_Institution
Dept. of Mech. Eng., Hong Kong Univ. of Sci. & Technol., Hong Kong, China
fYear
2009
fDate
10-13 Aug. 2009
Firstpage
317
Lastpage
321
Abstract
Warpage is one of the major concerns in manufacturing BGA, CSP, POP or QFN based array packages because a reasonably flat package is critical to successful singulation and board level assembly processes. Warpage of a package is a result of curing shrinkage of encapsulated mold compounds (EMC) and CTE mismatch between various packaging materials. In a completed package, all components are bound together by the crosslinked polymers, i.e. EMC and die-attaching adhesive (D/A). No component can expand or shrink freely. In a typical array package, warpage is in the form of either a dasiacryingpsila face (corners facing downward) or a dasiasmilingpsila face (corners facing upward), depending on the correlations of the packaging materials´ mechanical, physical and chemical properties. Fine pitch ball grid array (fpBGA) is a chip scale package offering a competitive solution for mobile applications. Package thickness ranges from 1.4 mm down to 0.6 mm with ball pitches as small as 0.4 mm. Since the package is very thin, warpage control is a big challenge. In this study, an accurate finite element model, incorporated appropriate material properties was developed to predict the warpage of fpBGA under reflow condition. The experimental measurements of the warpage behavior of the fpBGA under solder-reflow condition were conducted using an Akrometrix TherMoire PS200. The experimental results were compared with the results of FE analysis, which provides feedbacks for modeling optimization. Effects of material properties and geometric parameters on thermal warpage were then studied using the optimized models.
Keywords
ball grid arrays; chip scale packaging; encapsulation; fine-pitch technology; finite element analysis; microassembling; moulding; optimisation; polymers; reflow soldering; Akrometrix TherMoire PS200; CTE mismatch; chip scale package; crosslinked polymers; curing shrinkage; die-attaching adhesive; encapsulated mold compounds; fine pitch BGA; fine pitch ball grid array; finite element analysis; geometric parameters; mobile applications; modeling optimization; shadow Moireacute technique; size 0.4 mm; size 1.4 mm to 0.6 mm; solder-reflow condition; thermal warpage; warpage prediction; Assembly; Chemicals; Chip scale packaging; Curing; Electromagnetic compatibility; Finite element methods; Manufacturing processes; Material properties; Polymers; Semiconductor device modeling;
fLanguage
English
Publisher
ieee
Conference_Titel
Electronic Packaging Technology & High Density Packaging, 2009. ICEPT-HDP '09. International Conference on
Conference_Location
Beijing
Print_ISBN
978-1-4244-4658-2
Electronic_ISBN
978-1-4244-4659-9
Type
conf
DOI
10.1109/ICEPT.2009.5270742
Filename
5270742
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