MagnaChip to Offer Cost Competitive Redistribution Layer Metal Process and Copper Wire Bonding
The redistribution layer metal process converts wire bond pads at the perimeter of the die to an array of bump pads that are relocated to the center area of the die. The relocation of pads allows for a larger pad pitch for wafer bumping making it possible to use low cost solder bumps instead of plated bumps. The redistributed bond pad process has recently found its way into other advanced packaging methodologies such as wafer-level chip-scale packaging, system-in-package, and 3-D packaging. This process requires one additional aluminum layer and is fully compatible with MagnaChip's standard CMOS process.
Related to packaging trends, copper versus gold wire bonding has become one of the preferred methods for semiconductor interconnection because of its cost and performance features. Copper is a lower cost alternative to gold for packaging applications and has higher electrical and thermal conductivity making copper wire an excellent bonding material. In addition, copper bonds have greater reliability at elevated temperatures than gold bonds because of its lower tendency to form intermetallic compounds. One of the major challenges of copper wire bonding had been the significant mechanical stress imposed on bonding pads. This stress often resulted in dielectric cracks beneath the pads. MagnaChip resolved this issue in cooperation with the major packaging companies, including
About
Headquartered in
CONTACTS: |
|
In the United States: |
In Korea: |
Robert Pursel |
Chankeun Park |
Director of Investor Relations |
Senior Manager, Public Relations |
Tel. 408-625-1262 |
Tel. +82-2-6903-3195 |
SOURCE