Abstract: A cooling system and method for cooling electronic components, including IC dies. The cooling system employs a cooling device that includes a composite structure having first and second plates arranged substantially in parallel and bonded together to define a sealed cavity therebetween. The first plate has a surface that defines an outer surface of the composite structure and is adapted for thermal contact with at least one electronic component. A mesh of interwoven strands is disposed within the cavity and lies in a plane substantially parallel to the first and second plates, with the strands bonded to the first and second plates. A fluid is contained and sealed within the cavity of the composite structure, and flows through interstices defined by and between the strands of the mesh.

Abstract: A cooling system and method for cooling electronic components. The cooling system employs a cooling device that includes a composite structure having first and second plates arranged substantially in parallel and bonded together to define a sealed cavity therebetween. The first plate has a surface that defines an outer surface of the composite structure and is adapted for thermal contact with at least one electronic component. A mesh of interwoven strands is disposed within the cavity and lies in a plane substantially parallel to the first and second plates. A fluid is contained and sealed within the cavity of the composite structure, and is pumped through interstices defined by and between the strands of the mesh. Flow dividers can define interconnected channels within the cavity.

Abstract: A liquid cooling block consisting essentially of carbon for use with electric devices generating heat, comprising in combination; the cooling block contains grain in substantially normal orientation to the heat transfer surface between the cooling block and the electric device; a chamber with a bottom wall having prismatic projections for surface increase; the coolant is injected into the center of the cooling chamber and moves centrifugally towards block outlet channels in heat transfer relation with said projections; and, wherein the cooling block communicates with a cooler receiving coolant from the outlet channels of the liquid cooling block.