Thermal dynamics and BGA ball reflow

Author

Wathne, Sigurd R. ; Wathne, Kail S.

Author_Institution

Sikama Int. Inc., USA

fYear

1998

Firstpage

50

Lastpage

53

Abstract

Reflow technology has undergone some major changes in recent times. This is largely due to the requirements in the industry to improve process control. Three major factors contribute to achieve this: temperature, time and atmosphere. Not only must each segment be controlled, but it must all be done simultaneously, as each interacts with the other. It is no longer tolerable for one of the ingredients to be held to specifications while the other is not. Current furnaces are therefore drastically different from the common convection furnace designed for the SMT circuit industry. They must be compact and must be environmentally friendly, i.e. use less electricity, and less nitrogen or forming gas. For the processing of plastic BGAs, for example, a cycle rate of 10 seconds or less must be achieved and this should be accomplished in single file. The furnace must be less than 5 feet long. This paper discusses how to achieve these aims

Keywords

assembling; ball grid arrays; environmental factors; integrated circuit packaging; plastic packaging; process control; reflow soldering; thermal analysis; 10 s; 5 feet; BGA ball reflow; N₂; SMT circuit industry; convection furnace; electricity usage; environmentally friendly process; forming gas usage; furnaces; nitrogen usage; plastic BGAs; process atmosphere; process control; process segment control; process temperature; process time; reflow technology; specifications; thermal dynamics; Bars; Cooling; Furnaces; Industrial control; Nitrogen; Plastics; Soldering; Strips; Temperature dependence; Temperature distribution;

fLanguage

English

Publisher

ieee

Conference_Titel

IEMT/IMC Symposium, 2nd 1998

Conference_Location

Tokyo

Print_ISBN

0-7803-5090-1

Type

conf

DOI

10.1109/IEMTIM.1998.704516

Filename

704516