DocumentCode
2726194
Title
Design of a liquid bridge heat switch system based on the liquid bridge control for electronics cooling
Author
Jeong, Su-Heon ; Nakayama, Wataru ; Nam, Sung-Ki ; Lee, Sun-Kyu
Author_Institution
Gwang-ju Inst. of Sci. & Technol. (GIST), Gwangju, South Korea
fYear
2012
fDate
May 29 2012-June 1 2012
Firstpage
1951
Lastpage
1954
Abstract
Recently, liquid bridge heat switch has been suggested as effective thermal management solutions for the various thermal problems. The liquid bridge heat switch can control the thermal resistance and the temperature of desired position by regulating the liquid bridge between objective areas. The liquid bridge heat switch system is composed of hot plate as an upper plate, cold plate as a lower plate, and actuators. “On” state demand, the supplied liquid generates liquid bridge between two plates and conducts heat from hot plate to cold plate. The amount of conducting heat and thermal resistance are controlled by the diameter and height of generated liquid bridge. To be an “Off” state, the generated liquid bridge is retrieved and ruptured eventually. At that time, the heat switch system has maximum thermal resistance. This result decreased conduction of heat. In order to realize the desired switch operation, the precise liquid bridge control is required. In this research, the liquid bridge behavior was studied to design the heat switch system. The effects of channel geometry and clearance on the liquid bridge behavior were verified and the liquid bridge rupture conditions were found out. Based on the investigation, the liquid bridge heat switch system was designed for the high power LED cooling system. In a series of experiment, the stable liquid bridge operation was achieved by designed channel geometry. The results also showed that proposed heat switch system was able to decrease the LED junction temperature and regulate the thermal resistance between hot and cold plate.
Keywords
cooling; switches; thermal management (packaging); thermal resistance; LED junction temperature; actuators; channel geometry; cold plate; conducting heat; electronics cooling; high power LED cooling system; hot plate; liquid bridge behavior; liquid bridge control; liquid bridge heat switch system; liquid bridge rupture conditions; switch operation; thermal management solutions; thermal problems; thermal resistance; Bridges; Liquids; Resistance heating; Switches; Thermal resistance;
fLanguage
English
Publisher
ieee
Conference_Titel
Electronic Components and Technology Conference (ECTC), 2012 IEEE 62nd
Conference_Location
San Diego, CA
ISSN
0569-5503
Print_ISBN
978-1-4673-1966-9
Electronic_ISBN
0569-5503
Type
conf
DOI
10.1109/ECTC.2012.6249106
Filename
6249106
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