Title :
Thermal performance limits of the QFP family
Author :
Mulgaonker, Shailesh ; Chambers, Ben ; Mahalingam, Mali ; Ganesan, G. ; Hause, Vern ; Berg, Howard
Author_Institution :
Motorola, Inc., Phoenix, AZ, USA
Abstract :
The thermal performance limits of the quad flat package (QFP) family are projected. The metrics chosen are the maximum power dissipated for constraints of junction temperature (<105°C) and board temperatures (<90°C), under natural and forced air convection (~1.0 m/s) equipment operating conditions. Simulation studies using a finite-difference-based thermal software for IC packages investigated the relative roles of package and equipment parameters towards the thermal performance. Experimental data from the 132 PQFP were used to validate the methodology. The limits are presented from the chip designer´s as well as the package/equipment engineer´s perspective. The studies allow for the prediction of thermal performance of PQFPs that incorporate enhancements. The study covers plastic as well as ceramic versions of the QFP family
Keywords :
convection; cooling; finite difference methods; packaging; IC packages; PQFP; QFP family; board temperatures; ceramic versions; finite-difference-based thermal software; forced air convection; junction temperature; maximum power; natural convection; quad flat package; thermal performance limits; Ceramics; Design engineering; Electronics packaging; Finite difference methods; Integrated circuit packaging; Packaging machines; Plastics; Software packages; Software performance; Temperature;
Conference_Titel :
Semiconductor Thermal Measurement and Management Symposium, 1993. SEMI-THERM IX., Ninth Annual IEEE
Conference_Location :
Austin, TX
Print_ISBN :
0-7803-0863-8
DOI :
10.1109/STHERM.1993.225317
