Patent application number | Description | Published |
20100019377 | SEGMENTATION OF A DIE STACK FOR 3D PACKAGING THERMAL MANAGEMENT - An apparatus to reduce a thermal penalty of a three-dimensional (3D) die stack for use in a computing environment is provided and includes a substrate installed within the computing environment, a first component to perform operations of the computing environment, which is coupled to the substrate in a stacking direction, a set of second components to perform operations of the computing environment, each of which is coupled to the first component and segmented with respect to one another to form a vacated region, a thermal interface material (TIM) disposed on exposed surfaces of the first and second components, and a lid, including a protrusion, coupled to the substrate to overlay the first and second components such that the protrusion extends into the vacated region and such that surfaces of the lid and the protrusion thermally communicate with the first and second components via the TIM. | 01-28-2010 |
20140238640 | THERMAL TRANSFER STRUCTURE(S) AND ATTACHMENT MECHANISM(S) FACILITATING COOLING OF ELECTRONICS CARD(S) - Cooling apparatuses and coolant-cooled electronic assemblies are provided which include a thermal transfer structure configured to couple to one or more sides of an electronics card having one or more electronic components to be cooled. The thermal transfer structure includes a thermal spreader and at least one coolant-carrying channel associated with the thermal spreader to facilitate removal of heat from the thermal spreader to coolant flowing through the coolant-carrying channel(s). The cooling apparatus further includes a coolant manifold structure disposed adjacent to a socket of the electronic system within which the electronics card operatively docks, and a fluidic and mechanical attachment mechanism which facilitates selective, fluidic and mechanical coupling or decoupling the thermal transfer structure and coolant manifold structure, the attachment mechanism facilitating the flow of coolant between the coolant manifold structure and the coolant-carrying channel(s) of the thermal transfer structure. | 08-28-2014 |
20140240930 | THERMAL TRANSFER AND COOLANT-COOLED STRUCTURES FACILITATING COOLING OF ELECTRONICS CARD(S) - Cooling apparatuses and coolant-cooled electronic assemblies are provided which include a thermal transfer structure configured to couple to one or more sides of an electronics card having one or more electronic components to be cooled. The thermal transfer structure includes a thermal spreader coupled to the one side of the electronics card, and the apparatus further includes a coolant-cooled structure disposed adjacent to the socket of the electronic system. The coolant-cooled structure includes: one or more low-profile cold rails sized and configured to thermally couple to the thermal spreader along a bottom edge of the thermal spreader with operative docking of the electronics card within the socket; and one or more coolant-carrying channels associated with the low-profile cold rail(s) for removing heat from the low-profile cold rail(s) to coolant flowing through the coolant-carrying channel(s). | 08-28-2014 |
20140246174 | THERMAL TRANSFER STRUCTURE WITH IN-PLANE TUBE LENGTHS AND OUT-OF-PLANE TUBE BEND(S) - Cooling apparatuses and coolant-cooled electronic assemblies are provided which include a thermal transfer structure configured to couple to and cool one or more electronic components. The thermal transfer structure includes a thermal spreader, and at least one coolant-carrying tube coupled to the thermal spreader. The coolant-carrying tube(s) includes multiple tube lengths disposed substantially in a common plane, and an out-of-plane tube bend. The out-of-plane tube bend is couples in fluid communication first and second tube lengths of the multiple tube lengths, and extends out-of-plane from the multiple tube lengths disposed in the common plane. The first and second tube lengths may be spaced apart, with a third tube length disposed between them, and the coolant-carrying tube(s) further includes an in-plane tube bend which couples in fluid communication the third tube length and a fourth tube length of the multiple tube lengths. | 09-04-2014 |
20140247555 | SELECTIVE CLAMPING OF ELECTRONICS CARD TO COOLANT-COOLED STRUCTURE - Cooling apparatuses and coolant-cooled electronic assemblies are provided which include a thermal transfer structure configured to couple to an electronics card which operatively inserts into an electronic system. The thermal transfer structure includes a clamping structure movable between opened and clamped positions. A coolant-cooled structure, which is associated with the electronic system within which the electronics card is operatively inserted, resides between the electronics card and, at least partially, the clamping structure with insertion of the electronics card into the electronic system. The opened position of the clamping structure facilitates docking of the electronics card within the electronic system with the coolant-cooled structure between the card and, at least partially, the clamping structure, and movement of the clamping structure to the clamped position facilitates clamping of the thermal transfer structure to the coolant-cooled structure, and thermal conduction of heat from the card to the coolant-cooled structure. | 09-04-2014 |
20140254098 | MULTI-COMPONENT ELECTRONIC MODULE WITH INTEGRAL COOLANT-COOLING - A coolant-cooled electronic module is provided which includes a multi-component assembly and a module lid with openings aligned over respective electronic components. Thermally conductive elements are disposed within the openings, each including opposite coolant-cooled and conduction surfaces, with the conduction surface being thermally coupled to the respective electronic component. A manifold assembly disposed over the module lid includes inner and outer manifold elements, with the inner element configured to facilitate flow of coolant onto the coolant-cooled surfaces. The outer manifold element is disposed over the inner manifold element and coupled to the module lid, with the inner and outer manifold elements defining a coolant supply manifold, and the outer manifold element and module lid defining a coolant return manifold. The coolant supply openings are in fluid communication with the coolant supply manifold, and the coolant exhaust channels are in fluid communication with the coolant return manifold. | 09-11-2014 |
20140307389 | SEPARABLE AND INTEGRATED HEAT SINKS FACILITATING COOLING MULTI-COMPNENT ELECTRONIC ASSEMBLY - Cooling apparatuses and methods of fabrication thereof are provided which facilitate cooling a multi-component assembly, such as a hub module assembly. The cooling apparatus includes a first liquid-cooled heat sink configured to facilitate removal of heat generated by one or more first electronic components of the multi-component assembly, and a second liquid-cooled heat sink configured to facilitate removal of heat generated by one or more second electronic components of the multi-component assembly. The first liquid-cooled heat sink is separably coupled to the multi-component assembly, and the second liquid-cooled heat sink is fixedly secured to the multi-component assembly. Fluid couplers fluidically couple the first and second liquid-cooled heat sinks to facilitate liquid coolant flow through the fixedly-secured, second liquid-cooled heat sink from the separably-coupled, first liquid-cooled heat sink. | 10-16-2014 |
20150047809 | FABRICATING THERMAL TRANSFER STRUCTURE(S) AND ATTACHMENT MECHANISM(S) FOR COOLING ELECTRONICS CARD(S) - Methods of fabricating cooling apparatuses and coolant-cooled electronic assemblies are provided, which include providing a thermal transfer structure configured to couple to one or more sides of an electronics card having one or more electronic components to be cooled. The thermal transfer structure includes a thermal spreader and at least one coolant-carrying channel associated with the thermal spreader to facilitate removal of heat from the thermal spreader to coolant flowing through the coolant-carrying channel(s). The method further includes providing a coolant manifold structure disposed adjacent to a socket of the electronic system within which the electronics card operatively docks, and providing a fluidic and mechanical attachment mechanism which facilitates selective, fluidic and mechanical coupling or decoupling the thermal transfer structure and coolant manifold structure, the attachment mechanism facilitating the flow of coolant between the coolant manifold structure and the coolant-carrying channel(s) of the thermal transfer structure. | 02-19-2015 |
20150052753 | SELECTIVE CLAMPING OF ELECTRONICS CARD TO COOLANT-COOLED STRUCTURE - Methods of fabricating cooling apparatuses are provided which include: providing a thermal transfer structure configured to couple to an electronics card, the thermal transfer structure including a clamping structure movable between opened and clamped positions; and providing a coolant-cooled structure configured to reside within, and be associated with a receiving slot of, an electronic system within which the electronics card operatively inserts, the coolant-cooled structure residing between the electronics card and, at least partially, the clamping structure when the transfer structure is coupled to the electronics card and the card is operatively inserted into the receiving slot, wherein the opened position facilitates insertion of the electronics card into the electronic system, and movement of the clamping structure to the clamped position facilitates clamping of the thermal transfer structure to the coolant-cooled structure, and thermal conduction of heat from the electronics card to the coolant-cooled structure. | 02-26-2015 |
20150052754 | FABRICATING THERMAL TRANSFER AND COOLANT-COOLED STRUCTURES FOR COOLING ELECTRONICS CARD(S) - Methods of fabricating cooling apparatuses and coolant-cooled electronic assemblies are provided which include: coupling a thermal transfer structure configured to one or more sides of an electronics card having one or more electronic components to be cooled, the thermal transfer structure including a thermal spreader coupled to the one side of the electronics card; and disposing a coolant-cooled structure adjacent to the socket of the electronic system, the coolant-cooled structure including one or more low-profile cold rails sized and configured to thermally couple to the thermal spreader along a bottom edge of the thermal spreader with operative docking of the electronics card within the socket, and one or more coolant-carrying channels associated with the low-profile cold rail(s) for removing heat from the low-profile cold rail(s) to coolant flowing through the coolant-carrying channel(s). | 02-26-2015 |
20150053388 | FABRICATING THERMAL TRANSFER STRUCTURE WITH IN-PLANE TUBE LENGTHS AND OUT-OF-PLANE TUBE BEND(S) - Methods of fabricating cooling apparatuses are provided, which include providing a thermal transfer structure configured to couple to and cool one or more electronic components. The thermal transfer structure includes a thermal spreader, and at least one coolant-carrying tube coupled to the thermal spreader. The coolant-carrying tube(s) includes multiple tube lengths disposed substantially in a common plane, and an out-of-plane tube bend. The out-of-plane tube bend is couples in fluid communication first and second tube lengths of the multiple tube lengths, and extends out-of-plane from the multiple tube lengths disposed in the common plane. The first and second tube lengths may be spaced apart, with a third tube length disposed between them, and the coolant-carrying tube(s) further includes an in-plane tube bend which couples in fluid communication the third tube length and a fourth tube length of the multiple tube lengths. | 02-26-2015 |
20150055299 | FABRICATING MULTI-COMPONENT ELECTRONIC MODULE WITH INTEGRAL COOLANT-COOLING - Methods for fabricating a coolant-cooled component assembly are provided, which include providing a multi-component assembly and a module lid with openings aligned over respective electronic components. Thermally conductive elements are disposed within the openings, each including opposite coolant-cooled and conduction surfaces, with the conduction surface being thermally coupled to the respective electronic component. A manifold assembly disposed over the module lid includes inner and outer manifold elements, with the inner element configured to facilitate flow of coolant onto the coolant-cooled surfaces. The outer manifold element is disposed over the inner manifold element and coupled to the module lid, with the inner and outer manifold elements defining a coolant supply manifold, and the outer manifold element and module lid defining a coolant return manifold. The coolant supply openings are in fluid communication with the coolant supply manifold, and the coolant exhaust channels are in fluid communication with the coolant return manifold. | 02-26-2015 |
20150075755 | FABRICATING SEPARABLE AND INTEGRATED HEAT SINKS FACILITATING COOLING MULTI-COMPONENT ELECTRONIC ASSEMBLY - Methods of fabricating cooling apparatus are provided which facilitate cooling a multi-component assembly, such as a hub module assembly. The cooling apparatus includes a first liquid-cooled heat sink configured to facilitate removal of heat generated by one or more first electronic components of the multi-component assembly, and a second liquid-cooled heat sink configured to facilitate removal of heat generated by one or more second electronic components of the multi-component assembly. The first liquid-cooled heat sink is separably coupled to the multi-component assembly, and the second liquid-cooled heat sink is fixedly secured to the multi-component assembly. Fluid couplers fluidically couple the first and second liquid-cooled heat sinks to facilitate liquid coolant flow through the fixedly-secured, second liquid-cooled heat sink from the separably-coupled, first liquid-cooled heat sink. | 03-19-2015 |