The Impact of Stencil Printing Upon Assembly & Reliability Of 0.3mm Pitch CSP Components

Abstract

Abstract With the continual shrinking of electronic assembly form factors, designers are being forced towards smaller, more complex components with decreasing interconnection pitches. As a consequence, the Surface Mount assembly process is becoming increasingly challenged. For the stencil printing process, this means that historically accepted stencil aperture area ratio design rules, (which dictate what can or cannot be printed), need to be significantly pushed to extend the printing process for next generation ultra -fine pitch components. As a result, a major study has been undertaken looking at several different aspects of the stencil printing process, and their impact upon the assembly and reliability of 0.3mm pitch CSP components. In a preliminary test, stencil printing factors such as stencil aperture size and printing technology (standard squeegees vs ultrasonically aided active squeegees) were investigated. Data showed that the active squeegees provided a significantly larger process window. Subsequently, components were assembled using a range of solder paste volumes printed with both standard and active squeegee technology. The components assembled using an active squeegee process exhibited higher assembly yield, and also extended reliability when subjected to thermal cycling.