Title :
Drop Impact: Fundamentals and Impact Characterisation of Solder Joints
Author :
Wong, E.H. ; Rajoo, R. ; Mai, Y.-W. ; Seah, S.K.W. ; Tsai, K.T. ; Yap, L.M.
Abstract :
This paper presents a summary of the fundamental theories behind board level drop impact covering the dynamics of drop impact assembly, dynamics of PCB, as well as interconnection stress. This is followed by a comprehensive study of the fracture characteristics of solder interconnections under high-speed impact using a newly developed Micro Impactor which provides both the fracture strength as well as fracture energy of impact. The test matrix consists of 5 solder alloys, 4 pad finishing, 3 thermal histories, and 2 solder mask designs forming a total of 120 combinations. The test has highlighted weakness in NSMD design and caution on SnAgCu solder when used in drop impact application
Keywords :
assembling; copper alloys; fracture toughness; impact strength; impact testing; silver alloys; solders; tin alloys; NSMD design; PCB dynamics; SnAgCu; board level drop impact; drop impact assembly; fracture characteristics; fracture energy; fracture strength; interconnection stress; microimpactor; pad finishing; solder alloys; solder interconnections; solder joints; solder mask designs; test matrix; thermal histories; Assembly; Electric shock; Finishing; History; Numerical simulation; Soldering; Temperature; Testing; Thermal stresses; Transmission line matrix methods;
Conference_Titel :
Electronic Components and Technology Conference, 2005. Proceedings. 55th
Conference_Location :
Lake Buena Vista, FL
Print_ISBN :
0-7803-8907-7
DOI :
10.1109/ECTC.2005.1441423
