Described herein is a hybrid cooling device and a cooling method that use a combination of phase change cooling and air cooling. The hybrid cooling device includes a closed loop two phase system, one or more fans, and an assembly clamp. The two phase system further includes a cold plate, an integrated channel, and a radiator, and a pressure sensor. The cold plate can include phase change fluid for extracting heat from electronics on a printed circuit board sandwiched between the cold plate and the assembly clamp. The one or more fans can be used to create airflows for cooling both the cold plate and the radiator. The pressure sensor can be used to control the operation of the hybrid cooling device, which can be deployed in different system environments and server configurations.

A cooling system for data centre, which data centre includes a plurality of servers associated to form a rack, each server being provided with one or more heat generating means. The system includes a plurality of first heat exchange circuits and second thermosyphon circuits. The overall configuration of the system being such that the second thermosyphon circuits are in fluid communication with each other according to a parallel connection.

A system and method for cooling electronic equipment having a power supply unit separate from the equipment, sprayers that spray a dielectric liquid coolant on the top of the equipment lengthwise along one or more fins of one or more heat sinks on the equipment, a reservoir, connectors, and pumps for pumping the liquid coolant from the reservoir and through the sprayer, and an external housing.

An electronic device is disclosed. The electronic device includes a chassis and at least one plugin unit mounted in the chassis. The plugin unit includes a substrate, a heat receiving member, a radiator, and a heat transfer member. The substrate mounts a first electronic component and a second electronic component having a higher heat release value than the first electronic component. The heat receiving member receives heat by contacting the second electronic component. The radiator is shaped as a duct. The heat transfer member transfers the heat from the heat receiving member to the radiator. The chassis includes a fan that generates air-current inside the radiator and on one or more component mounting surfaces of the substrate.

The present disclosure refers to methods and electronics used to test immersion cooling controllers. A representative method comprises operably connecting a simulator device to an immersion cooling controller. The simulator device is used to communicate one or more changes to the immersion cooling controller wherein the one or more changes relate to one or more sensed parameters of an immersion cooling system. The reaction of the controller to the one or more changes is compared to an expected reaction of the controller to determine whether the controller is functioning properly. The controller may be configured to control any parameter of an immersion cooling system including, but not limited to, temperature, water flow, pressure, fluid level, fluid purity, and any combination thereof.

The disclosure provides a cooling device, for cooling devices that generate heat during their operation. The cooling device includes single phase cooling plates to be attached to the devices to dissipate a majority of the heat from the devices while a first coolant is circulated through the single phase cooling plates. The cooling device also includes a unified cooling plate. The plate is directly attached on top of the single phase cooling plates. The unified cooling plate dissipates a portion of the heat transferred from the single phase cooling plates to the unified cooling plate while a second coolant is circulated through the unified cooling plate and when the first coolant is insufficient to remove the portion of the heat from at least one of the single phase cooling plates. The cooling device may be used as part of an electronic rack, a data center, and in other environments.

Cold plates and liquid cooling systems for electronic devices are disclosed herein. An example cold plate includes a body defining a cavity. The body has an inlet opening and an outlet opening fluidically coupled to the cavity such that a fluid passageway is defined between the inlet opening and the outlet opening. The cold plate also includes metal foam in the cavity.

A thermal management system includes a boiler tank and at least one heat-generating component positioned in the boiler tank. The boiler tank is in fluid communication with a vapor return line and a liquid return line. A condenser is in fluid communication with the vapor return line and the liquid return line. The condenser is positioned between vapor return line and the liquid return line in the fluid communication.

A server computer system has one or more node assemblies. A node assembly has two motherboards that are stacked one over another with their component sides facing toward each other. Memory cards that are mounted on one motherboard are interlaced with memory cards that are mounted on the other motherboard. At least processors of the two motherboards are immersed in a coolant fluid in a fluid immersion cooling tank. A processor cooling stack is mounted over a processor. The processor cooling stack includes flow regulation structures with sidewalls that regulate flow of vapor bubbles of the coolant fluid away from the processor.

A passive hybrid heat transfer system for cooling a heat source, such as an integrated circuit, includes a thermosiphon heat transfer subsystem that operates in combination with a supplemental heat transfer subsystem to transfer heat away from and thereby cool the integrated circuit. The heat transfer system includes the thermosiphon heat transfer subsystem including a condenser coupled to an evaporator. The evaporator is coupled to the integrated circuit or other heat source and is positioned below the condenser relative to a direction of gravity. The supplemental heat transfer subsystem is thermally coupled to the evaporator of the thermosiphon heat transfer subsystem and has at least a portion extending below the evaporator relative to the direction of gravity. A network device like a switch or router may include the hybrid heat transfer system to cool high power integrated circuits without the need to resort to active cooling systems.