J.Y.N. Tan scite author profile

Portable electronic products such as cellular phones, PDAs, and MP3 units are increasingly designed for accidental drop. Repeated drop events can lead to solder joint failure and malfunction of these products. Hence board-level reliability drop testing is a useful way to characterize the drop durability of the printed circuit board with different soldered assemblies. Lead-free (or Pb-free) solders are replacing lead-based solders. Surface mounted electronic packages are getting smaller and with higher density (I/Os). In this study, Plastic Ball Grid Array (PBGA), Quad Flat No-lead (VQFN) and PQFP solder joint reliability characterization by drop impact testing was investigated for lead-based (62Sn-36Pb-2Ag) and lead-free (Sn-4Ag-0.5Cu) soldered assemblies. The influence of different package types and the impact of PCB surface finishes for OSP and ENIG (electroless nickel immersion gold) were studied. The drop test results showed that leadfree solder joints with ENIG finish have weaker drop reliability performance than the case for OSP surface finish. The different solder alloy-to-surface finish type combination results in different intermetallics formed and contributed to different failure sites and mode of failure.

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Drop test reliability assessment of leaded & lead-free solder joints for IC packages

Chong¹,

Ng²,

Tan³

et al.

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J.Y.N. Tan

Drop impact reliability testing for lead-free and lead-based soldered IC packages

Drop Impact Reliability Testing for Lead-Free and Leaded Soldered IC Packages

Drop test reliability assessment of leaded & lead-free solder joints for IC packages

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