An example computing device includes one or more bays to receive a pluggable module, and a cold plate assembly. The cold plate assembly includes one or more cold plates to engage with the pluggable modules and transfer heat from the modules to liquid coolant. The cold plate assembly also includes a pivoting support that supports the cold plate(s) and pivots relative to the system board, and an engagement mechanism comprising a mechanical linkage with mechanical advantage attached to the pivoting support such that moving a link of the mechanical linkage causes the pivoting support to pivot between an engaged position and a disengaged position. In the engaged position, the cold plate contacts is positioned to engaged with the pluggable module, while in the disengaged position the cold plate is disengaged from the pluggable module.

A device including a rack; an enclosure provided inside the rack; a module provided inside the enclosure; a main pipe provided in the rack; a branching tube connected to the main pipe; a cooling unit that cools a heat-generating component mounted on the module; a first connection tube that connects the branching tube with the cooling unit; and a plurality of module connection portions that are provided inside the enclosure and to which the module is connected; wherein the enclosure can slide in a state in which the module is connected to the module connection portion, and the cooling unit and the branching tube are connected by the first connection tube.

A device comprising heat producing electronic components (2), such as server memory boards, processors and/or switches, said device comprising a container (1) wherein said heat producing components are mounted, a liquid in said container in which liquid said components are submerged for extracting heat from said components, at least one heat exchanger (7) having a surface which is in contact with said liquid and arranged to extract heat from said liquid, wherein between said heat exchanger and said components a vertical wall (6) is present for guiding and separating a vertical circulation of said liquid in said container which is caused by a temperature difference in said liquid.

A device for cooling an electronic module placed in an avionics rack of an aircraft comprising a ventilated cabin, the cooling device comprising: a closed circuit for circulating a heat-transfer fluid; first means for circulating the heat-transfer fluid in the closed circuit; a first heat exchanger comprising a cold circuit which is provided with first means for connecting to the closed circuit for circulating a heat-transfer fluid and which is thermally connected to a hot source of the avionics rack; a second heat exchanger comprising a hot circuit provided with second means for connecting to the closed circuit for circulating a heat-transfer fluid and a cold circuit thermally connected to an air exhaust from the ventilated cabin. An avionics rack and an aircraft comprising such a rack.

A server tray package includes a motherboard assembly that includes a plurality of data center electronic devices, the plurality of data center electronic devices including at least one heat generating processor device; and a liquid cold plate assembly. The liquid cold plate assembly includes a base portion mounted to the motherboard assembly, the base portion and motherboard assembly defining a volume that at least partially encloses the plurality of data center electronic devices; and a top portion mounted to the base portion and including a heat transfer member shaped to thermally contact the heat generating processor device, the heat transfer member including an inlet port and an outlet port that are in fluid communication with a cooling liquid flow path defined through the heat transfer member.

In one embodiment, a network communications device includes a chassis, a plurality of modules removably inserted into a plurality of slots in the chassis, at least a portion of the modules each comprising a connector for receiving coolant for cooling components on the module, a controller for controlling coolant distribution to the modules, and a leak detection system for identifying a leak of the coolant and transmitting an indication of the leak to the controller.

An apparatus for providing forced flow cooling in a circuit card environment is provided includes at least one circuit card including first and second longitudinally spaced circuit card subassemblies, connected together into a single circuit card oriented substantially in a lateral-longitudinal plane. The first and second circuit card subassemblies have first and second operating temperatures, which are different from one another. A housing defines a housing internal volume which completely three-dimensionally surrounds the circuit card. A first temperature-control fluid is directed laterally across at least a portion of the first circuit card subassembly within the housing internal volume in a first flow path to induce the first operating temperature concurrently with a second temperature-control fluid being directed laterally across at least a portion of the second circuit card subassembly within the housing internal volume in a second flow path to induce the second operating temperature.

A liquid cooling module for cooling an electronic component includes a housing supporting the electronic component, where the housing includes a cavity containing a cooling liquid. A liquid flow channel can be in fluid communication with the cavity and define a liquid cooling loop. A cold plate supporting the housing can have a cooling channel thermally coupled to the liquid flow channel.

A method of maintaining a server rack within a predetermined temperature range, including the removal of heat from the server rack by both conductive and convective heat transfer. Thermal contact structure is placed between the server rack and a heat sink. The heat sink may be in the form of a housing containing a radiator in one wall, and a bank of fans in an opposite wall to draw a coolant gas through the radiator. The coolant gas contacts the heat sink and a portion of the coolant gas is directed towards the server rack. Cooling liquid is supplied to the radiator by a chiller, which can be adjacent to the heat sink or located remotely from the heat sink.

A transmitting apparatus includes an apparatus main body, and a plug-in unit, wherein the apparatus main body includes a holding member that holds a cooling plate displaceably in an upward-downward direction in the slot of the apparatus main body, and the plug-in unit includes a casing allowed to be inserted and removed into and from the slot of the apparatus main body, a substrate that is housed in the casing and on which a heat generating, component is mounted, and a displacing member that displaces the cooling plate held by the holding member to a position at which the cooling plate gets contact with the heat generating component or a position at which the cooling plate gets contact with a heat transfer member disposed on the heat generating component in conjunction with operation of inserting the casing into the slot of the apparatus main body.