VIBRATION-INDUCED TWO-PHASE COOLING TECHNOLOGIES FOR HIGH POWER THERMAL MANAGEMENT
The present paper describes the operation of a small-scale VIDA heat transfer cell for cooling desktop microprocessors with particular emphasis on its operating characteristics and cooling capabilities. The effects of internal flow regulation and of geometry and surface characteristics of the heated surface on the cell performance are investigated. Heat fluxes as high as 420 W/cm2 have been dissipated at die temperatures below 135ºC.
Download this whitepaper to learn more.
Read More
By submitting this form you agree to Aavid contacting you with marketing-related emails or by telephone. You may unsubscribe at any time. Aavid web sites and communications are subject to their Privacy Notice.
By requesting this resource you agree to our terms of use. All data is protected by our Privacy Notice. If you have any further questions please email dataprotection@techpublishhub.com
Related Categories: Components, cooling, Embedded, Power, Processors
More resources from Aavid
DIRTY DOZEN: The 12 Most Common Mistakes of Specifying Circuit Protection for Equipment
Over the years, Aavid have encountered many misconceptions, and have selected the 12 most common pitfalls for this white paper. It is their hope th...
SynJet: Low-Power “Green” Cooling
The realities of finite petroleum resources and growing global energy needs along with the confidence that we are indeed experiencing global warmin...
ENHANCED BOILING HEAT TRANSFER BY SUBMERGED ULTRASONIC VIBRATIONS
This paper describes a new two-phase cooling heat transfer cell based on a submerged vibration-induced bubble ejection process in which small vapor...