Title :
Thermal enhancements for a thin film chip carrier
Author :
Reynolds, Scott D. ; Sammakia, Bahgat G. ; Carden, Timothy F.
Author_Institution :
IBM Corp., Endicott, NY, USA
fDate :
10/1/1992 12:00:00 AM
Abstract :
The development of a thermal enhancement technique targeted for single-chip, thin-film carriers is described. The test package consisted of a 7.5-mm by 7.5-mm chip bonded to a high lead count organic tape substrate using tape automated bonding (TAB). Because of high chip power requirements, a thermal enhancement consisting of a heat sink bonded to the chip with a thermally conductive epoxy was developed. The objectives were to develop the appropriate heat sink, thermal adhesive, and assembly process for the heat management system. The thermal performance of the package was evaluated in both natural and forced convection environments. Reliability measurements were taken to ensure the chip to heat sink interface and the overall package withstood the required stresses without significant performance deterioration. These stresses included standard accelerated thermal cycling (ATC), ship shock, mechanical torque and vibration, and chemical exposure
Keywords :
VLSI; environmental testing; heat sinks; packaging; reliability; tape automated bonding; 7.5 mm; TAB; accelerated thermal cycling; assembly process; chemical exposure; chip to heat sink interface; forced convection environments; heat management system; heat sink bonded chip; high lead count organic tape substrate; natural convection; ship shock; single chip carrier; tape automated bonding; test package; thermal adhesive; thermal enhancement technique; thermal performance; thermally conductive epoxy; thin film chip carrier; thin-film carriers; torque; vibration; Automatic testing; Bonding; Conductive films; Heat sinks; Packaging; Substrates; Thermal conductivity; Thermal management; Thermal stresses; Transistors;
Journal_Title :
Components, Hybrids, and Manufacturing Technology, IEEE Transactions on
