Title :
Compact liquid cooling system for small, moveable electronic equipment
Author :
Lee, T. Y Tom ; Andrews, James ; Chow, Peter ; Saums, David
Author_Institution :
Motorola Inc., Phoenix, AZ, USA
Abstract :
A compact liquid cooling system has been evaluated in a benchmark of self-contained heat exchanger units that fit within small movable electronic equipment, such as PCs and workstations. The compact cooling system connects to a multichip module package via a pair of flexible stainless steel hoses. The system contains a fluid expansion chamber, a liquid-to-air heat exchanger core, a fan, and a pump and can operate entirely sealed. Pressures, package power dissipation, flow rate, and temperatures were recorded. The coolant liquid chosen for use in this system was 3M Fluorinert type FC-72, a chemically inert dielectric liquid. The 5.5 liter prototype system delivers 1.1 liter/min of FC-72. Test results showed the unit can remove up to 274 W of power dissipated with a 52°C temperature difference between inlet liquid and air with a thermal resistance of 0.19°C/W. Design improvements for a second generation system are proposed
Keywords :
cooling; heat exchangers; packaging; temperature distribution; thermal resistance; 274 W; 3M Fluorinert type FC-72; coolant liquid; flexible stainless steel hoses; flow rate; fluid expansion chamber; liquid cooling system; liquid-to-air heat exchanger core; moveable electronic equipment; multichip module package; package power dissipation; power dissipation; self-contained heat exchanger units; temperature difference; thermal resistance; Electronic equipment; Electronics cooling; Electronics packaging; Liquid cooling; Multichip modules; Packaging machines; Personal communication networks; Temperature; Thermal resistance; Workstations;
Conference_Titel :
Semiconductor Thermal Measurement and Management Symposium, 1992. SEMI-THERM VIII., Eighth Annual IEEE
Conference_Location :
Austin, TX
Print_ISBN :
0-7803-0500-0
DOI :
10.1109/STHERM.1992.172864
