Title :
Low profile plastic quad flat package: LPPQFP
Author :
McShane, Mike ; Casto, Jim ; Bigler, Jerry ; Lin, Paul
Author_Institution :
Motorola Inc., Austin, TX, USA
Abstract :
The effects of stress on the mechanical integrity of the high pin-count surface-mount PQFP packages and on very large (500 mil) IC dies have been studied experimentally. Passivation cracks, metal movement, and crack propagation in the package are examined. Changes in package design that improve the resistance to thermal excursions of surface-mounted devices are described. A factorial experiment is reviewed that used package thickness, lead-frame materials, and adhesion promoters as the variables. The latest ultra-low-stress molding compounds and passivations were studied. The affect of adding stress buffers to mold compounds, particularly crack passivation, is emphasized. Also included are experimental data using a package-development test die to electrically characterize the effects of the various package design and material changes as well as the system performance during various stress tests such as temperature cycle, thermal shock, moisture preconditioning/crack resistance and moisture resistance.<>
Keywords :
integrated circuit technology; passivation; surface mount technology; thermal shock; thermal stress cracking; IC dies; LPPQFP; crack passivation; crack propagation; crack resistance; high pin-count surface-mount PQFP packages; lead-frame materials; low profile plastic quad flat package; mechanical integrity; metal movement; moisture preconditioning; moisture resistance; package thickness; stress tests; temperature cycle; thermal shock; ultra-low-stress molding compounds; Electric resistance; Materials testing; Moisture; Passivation; Plastic packaging; Surface cracks; Surface resistance; System testing; Thermal resistance; Thermal stresses;
Conference_Titel :
Electronics Components Conference, 1988., Proceedings of the 38th
Conference_Location :
Los Angeles, CA, USA
DOI :
10.1109/ECC.1988.12625
