Author_Institution :
AT&T Bell Labs., Princeton, NJ, USA
Abstract :
A generic study involving solder paste characterization, stencil configuration, printed wiring board layout, and printing parameters was performed. The authors summarize findings in the following areas: solder paste-powder particle size distribution, rheology, slump, and solder ball formation; stencils-single versus dual thickness, brass or other materials, opening sizes, vendor capabilities; printed wiring boards-pad geometry, dimensional tolerance, pad surface finish; printing process-setup and alignment, squeegee materials, printing speed downward pressure; and, component placement-handling, placement accuracy, force limitations. Some practical concerns, including the current process operating window and future fineness of print limitations, are discussed
Keywords :
printed circuit manufacture; soldering; surface mount technology; alignment; brass; component placement; dimensional tolerance; dual thickness stencil; fine-pitch surface mount assembly; fineness of print limitations; force limitations; handling; opening sizes; pad geometry; pad surface finish; placement accuracy; powder particle size distribution; printed wiring board layout; printing parameters; printing speed downward pressure; process operating window; reflow soldering; rheology; setup; single thickness stencil; slump; solder ball formation; solder paste characterization; solder paste stencil printing; squeegee materials; stencil configuration; vendor capabilities; Assembly; Electronics packaging; Geometry; Integrated circuit packaging; Integrated circuit yield; Lead; Printing; Production facilities; Rheology; Wiring;
Journal_Title :
Components, Hybrids, and Manufacturing Technology, IEEE Transactions on
