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98.5Sn0.5Ag1Cu0.05Mn (SAC0510M) exhibits a melting behavior similar to SAC105. It is two times better than SAC105 in the dynamic bending test; more than 8 times better in the modified JEDEC drop test; and more than 40–60% better in the −55°C/125°C thermal cycling test. The reduced hardness and much thinner and stable IMC layer on Ni are responsible for the superior non-fragility, while the stabilized...
Assembled BGA/CSP devices with SnAgCu (SAC) solder joints are vulnerable when dropped due to the fragility of solder joints. Although reducing the Ag content of SAC alloy does help, the crack resistance when dropped is still considerably poorer than the eutectic SnPb system. Therefore a new alloy with improved drop test performance is greatly desired. In this work, SAC105 doped with Ti (SAC105Ti)...
In this study, the reliabilities of low Ag SAC alloys doped with Mn or Ce (SACM or SACC) were evaluated under JEDEC drop, dynamic bending, thermal cycling, and cyclic bending test conditions against eutectic SnPb, SAC105, and SAC305 alloys. The Mn or Ce doped low cost SAC105 alloys achieved a higher drop test and dynamic bending test reliability than SAC105 and SAC305, and exceeded SnPb for some test...
SAC-Ti alloys exhibited significantly improved drop test performance over not only SAC alloys, but also 63Sn37Pb for ENIG/OSP, NiAu/OSP, and OSP/OSP surface finish systems. The superior performance is attributed to (1) the increased grain size and dendrite size, therefore reduced hardness of solder, (2) inclusion of Ti in the IMC layer, and (3) reduced IMC layer thickness. DSC data indicate that the...
SAC-Ti alloys exhibited significantly improved drop test performance over not only SAC alloys, but also 63Sn37Pb for ENIG/OSP, NiAu/OSP, and OSP/OSP surface finish systems. The superior performance is attributed to (1) the increased grain size and dendrite size, therefore reduced hardness of solder, (2) inclusion of Ti in the IMC layer, and (3) reduced IMC layer thickness. DSC data indicate that the...
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