Patent application number | Description | Published |
20080282720 | HIGH POWER MICROJET COOLER - A distribution apparatus, system and method for thermal control whereby a plate of a manifold assembly has predetermined surface features positioned on specific locations on a surface thereof for enhancing the cooling capabilities of the assembly. The predetermined surface features of the plate delay a velocity decay of a fluid impinging the surface of the plate, while also increase the surface area of the plate exposed to the impinging liquid, which in turn, maximize both the reliability and thermal performance of the overall thermal system at a given maximum operating pressure. | 11-20-2008 |
20090040864 | MICROFLUID MIXER, METHODS OF USE AND METHODS OF MANUFACTURE THEREOF - Disclosed herein is a mixer comprising a base plate; a top plate in intimate contact with a surface of the base plate; the intimate contact preventing a fluid loss from the bottom plate; the top plate comprising a plurality of first ports for the entry of a first fluid and a second fluid; a mixing chamber in fluid communication with the plurality of first ports; a first heating element; and an exit channel for removing an intimate mixture of the first fluid and the second fluid; and a reciprocatory device in physical contact with the mixing chamber; the reciprocatory device being operative to agitate the first fluid and the second fluid. | 02-12-2009 |
20090095444 | MICROJET MODULE ASSEMBLY - Low-pressure drop thermal assemblies, systems and methods of making low-pressure drop thermal assemblies for use in high power flux situations. A manifold body is attached to a distributor to form a subassembly. This subassembly is in communication with a substrate surface, which has a semiconductor device in need of thermal management thereon. An enclosed cavity is formed between the target substrate surface and the subassembly, and a seal of the cavity protects critical components residing on the active surface of the semiconductor device. The distributor includes a distributed liquid impingement microjet inlet array isolated from and parallel with a distributed microjet drain array for impinging cooling fluid and removing spent heated fluid in a direction orthogonal to a target surface for maximizing the heat transfer rate, and thereby providing high cooling flux capabilities while enabling low-pressure drops. | 04-16-2009 |
20090109628 | Chip Cooling System with Convex Portion - Integrated circuit chip cooling methods and systems are disclosed. A method for cooling an integrated circuit chip may comprise: providing a cooling mechanism; positioning an interface medium between the cooling mechanism and the integrated circuit chip; and interfacing the cooling mechanism and the integrated circuit chip through the interface medium; wherein at least one of the cooling mechanism, the integrated circuit chip, or the interface medium includes a convex portion on an interface surface thereof. | 04-30-2009 |
20090303684 | SYSTEMS AND METHODS FOR COOLING AN ELECTRONIC DEVICE - Systems and methods for cooling electronic devices via enhanced thermal conduction in the gap separating an electronic device from a heat sink are provided. In one embodiment, a system for cooling an electronic device comprises: a heat sink spaced from the integrated circuit by a gap; and a bubbler and an atomizer configured to feed a mixture comprising an atomized liquid and a carrier gas to the gap. | 12-10-2009 |
20100200197 | LIQUID COOLED COMPLIANT HEAT SINK AND RELATED METHOD - A heat sink and method for using the same for use in cooling an integrated circuit (IC) chip is provided herein. The heat sink includes a manifold block, a liquid-filled cooling system, and a compliant foil affixed to the manifold block and backed by a liquid in the closed loop cooling system. The pressure provided by the liquid behind the foil causes the foil to bow, and to conform to non-planarities in the surface of the IC chip, thus reducing air gaps and increasing thermal coupling between the IC chip and the heat sink. | 08-12-2010 |
20120160019 | MICRO-FLUIDIC TEST APPARATUS AND METHOD - An apparatus, system, and method for determining the osmolarity of a fluid. The apparatus includes at least one micro-fluidic circuit and at least one electrical circuit disposed in communication with the micro-fluidic circuit for determining a property of a fluid contained within the at least one micro-fluidic circuit. | 06-28-2012 |
20120163116 | USING A MICROFLUID MIXER - A method includes directing first and second fluids into a plurality of first ports fluidly connected to a mixing chamber disposed between a first plate and a base plate, guiding the first and second fluids into a mixing chamber, directing the first and second fluid into a plurality of second ports fluidly connected to the plurality of first ports, guiding the first and second fluids from the plurality of second ports into another mixing chamber disposed between a second plate and the first plate and fluidly connected to the mixing chamber, activating a heating element to heat one of the first and second fluids entering the mixing chamber, creating a temperature gradient between the first and second fluids entering the mixing chamber, and operating a diaphragm operatively associated with the mixing chamber and the another mixing chamber to agitate the first and second fluids to form a fluid mixture. | 06-28-2012 |
20130133177 | MANUFACTURING A MICROFLUID MIXER - A method of manufacturing a microfluid mixer includes pouring a ceramic precursor into a first mold, a second mold and a third mold. The first mold forms a base plate, the second mold forms a top plate, and the third mold forms a first plate. The ceramic precursors are gelled in the first mold, the second mold and the third mold to form a green base plate, a green top plate and a green first plate. The plates are removed from the respective molds. The green base plate, the green top plate, and the green first plate are co-fired to form a ceramic base plate, a ceramic top plate and a ceramic first plate. The ceramic base plate is interlocked with the ceramic top plate and the ceramic first plate, and a diaphragm is disposed upon one of the first plate and the top plate. | 05-30-2013 |
20130199278 | MICRO-FLUIDIC TEST APPARATUS AND METHOD - An apparatus, system, and method for determining the osmolarity of a fluid. The apparatus includes at least one micro-fluidic circuit and at least one electrical circuit disposed in communication with the micro-fluidic circuit for determining a property of a fluid contained within the at least one micro-fluidic circuit. | 08-08-2013 |
20130284351 | GLASS SHEET LAMINATING SYSTEM - A contoured glass sheet laminating system may include a glass-side vacuum bed, a laminate-side vacuum bed and a lamination actuator. The glass-side vacuum bed may include a vacuum backside and a mold-receiving side and may have sufficient permeability to permit a vacuum system to pull a vacuum across a thickness of the glass-side vacuum bed between the vacuum backside and the mold-receiving side of the glass-side vacuum bed. The laminate-side vacuum bed may include a vacuum backside and a thin-film loading side and may have sufficient permeability to permit a vacuum system to pull a vacuum across a thickness of the laminate-side vacuum bed between the vacuum backside and the thin-film loading side of the of the laminate-side vacuum bed. | 10-31-2013 |