Title :
Fully integrated one phase liquid cooling system for organic boards
Author :
May, D. ; Wunderle, B. ; Schindler-Saefkow, F. ; Nguyen, B. ; Schacht, R. ; Michel, B. ; Reichl, H.
Author_Institution :
Fraunhofer Inst. Zuverlassigkeit und Mikrointegration, Berlin
Abstract :
Prime concerns in designing liquid cooling solutions are performance, reliability and price. To that end a one-phase liquid cooling concept is proposed, where all pumps, valves and piping are fully integrated on board level. Only low-cost organic board technology and SMT processes are used in the design. This paper addresses the key issues of such a concept together with some numerical and first experimental results. It is highlighted that for such a concept a special type of membrane pump with adequate valve technology is especially suitable. Design guidelines as to its performance are given. Eventually, the obtained results are evaluated with respect to the requirements and necessary further developments are commented on to make the concept eligible for the cost-performance-sector.
Keywords :
cooling; microchannel flow; micropumps; microvalves; printed circuits; pumps; surface mount technology; thermal management (packaging); SMT processes; integrated one-phase liquid cooling system; low-cost organic board technology; membrane pump; microchannels; piping system; valve technology; Actuators; Biomembranes; Circuit testing; Costs; Heat pumps; Liquid cooling; Reservoirs; Surface-mount technology; Valves; Water heating;
Conference_Titel :
Thermal Investigation of ICs and Systems, 2007. THERMINIC 2007. 13th International Workshop on
Conference_Location :
Budapest
Print_ISBN :
978-2-35500-002-7
DOI :
10.1109/THERMINIC.2007.4451768
