Title :
Self-Assembly Process for Array Interconnects Pattern Using Solder/Polymer Hybrid Materials
Author :
Yasuda, Kiyokazu
Author_Institution :
Nagoya Univ., Nagoya, Japan
Abstract :
In the modern packaging technologies highly condensed metal interconnects such as solder bumps, gold studs or copper pillars are typically formed by high-cost processes. These methods inevitably require the precise controls of mutually dependant process parameters, which usually cause the difficulty of the change in the layout design for the interconnects of chip to-chip or chip-to-substrate. In order to overcome these problems, so far, the unique concept and methodology of self-assembly even in micro-meter scale were developed by the author. In this paper the geometry and yielding ratio of vertical and lateral solder bump bridges before self-replication were compared with varying filler content, copper land space and gap space. It was found that the formation of the vertically bridged bump arrays with 100-300 μm space can be achievable.
Keywords :
integrated circuit interconnections; packaging; self-assembly; solders; array interconnects pattern; chip-to-chip; chip-to-substrate; filler content; geometry; gold studs; highly condensed metal interconnects; layout design; micrometer scale; packaging technology; self-assembly process; solder bumps; solder/polymer hybrid materials; vertically bridged bump array; yielding ratio; Arrays; Bridge circuits; Bridges; Copper; Heating; Resins; Substrates; Array interconnection; micro-bump; self-assembly; solder joint; system-in-package;
Journal_Title :
Components, Packaging and Manufacturing Technology, IEEE Transactions on
DOI :
10.1109/TCPMT.2011.2162734
