Tacky Dots super(TM) transfer of solder spheres for flip chip and electronic package applications

The use of preformed solder spheres for bumping flip chip wafers has not gained wide acceptance within the semiconductor industry. Due in part to equipment shortcomings, solder sphere transfer until now was commonly limited to spheres 300 mu m or larger, much too large for the typical flip chip appl...

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Bibliographic Details
Published in:Proceedings / Electronic Components Conference 1998-01
Main Authors: Hotchkiss, Greg, Amador, Gonzalo, Jacobs, Liz, Stierman, Roger, Dunford, Steve, Hundt, Paul, Beikmohamadi, Allan, Cairncross, Allan, Gantzhorn, John, Quinn, Brian, Saltzberg, Michael
Format: Article
Language:English
Online Access:Get full text
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Summary:The use of preformed solder spheres for bumping flip chip wafers has not gained wide acceptance within the semiconductor industry. Due in part to equipment shortcomings, solder sphere transfer until now was commonly limited to spheres 300 mu m or larger, much too large for the typical flip chip applications of 150 mu m or less. To address this need, Texas Instruments and DuPont have jointly developed a process for transferring 127 mu m diameter solder spheres to wafers. The process, called Tacky Dots super(TM), forms an array of sticky or tacky dots in a photoimageable adhesive coating. Solder spheres sprinkled on the adhesive coating are then captured and retained by the tacky dots until the spheres are aligned and reflowed to the wafer. This paper describes the equipment and processes developed for bumping wafers using Tacky Dots super(TM). The compliant polyimide sheet used in Tacky Dots super(TM) required a new and unique equipment design that aligns the solder spheres to the wafer and then reflows the solder without moving the wafer. Post reflow analysis of the bumped dies before and after environmental testing will be reviewed. Tests conducted with a Leadless Chip Carrier package design are also reviewed to demonstrate the capability of Tacky Dots super(TM) at transferring spheres to electronic packages and substrates other than wafers.
ISSN:0569-5503