A cooling system for thermally conditioning a component includes a heat spreader configured to provide a cold side. An insulator plate is arranged adjacent to the heat spreader. A thermoelectric device is arranged within the insulator plate and operatively thermally exposed on a side of the insulator plate opposite the heat spreader. A cold plate assembly is arranged adjacent to the insulator plate and operatively engages the thermoelectric device.

A cooling plate design for cooling a battery cell is provided that employs a plastic plate having cutouts for coolant flow paths. The plastic plate has a layer of adhesive film on each side to maintain coolant in the channels. Compression within an alternating battery cell and coolant plate stack provides pressure that minimizes coolant load on the film. Methods to manufacture the cooling plate are also provided.

A water block assembly comprising a water block unit and an insulating housing, and a method for insulating a water block unit are provided. The water block unit has an external thermal transfer surface configured to be in contact with a heat generating component to be cooled, and defines an internal fluid conduit for circulating fluid therein, a fluid inlet for feeding fluid into the internal fluid conduit, and a fluid outlet for discharging fluid from the internal fluid conduit. The insulating housing at least partly embeds the water block unit therein to limit heat transfer from the water block unit to a surrounding environment thereof, the insulating housing having an internal surface in contact with the water block unit.

A heat transfer system includes fluid transfer cells that vibrationally move a fluid and a thermally conductive cover that conducts heat from the cells while avoiding transfer of mechanical energy between the cells. A fluid transfer module includes outer and inner walls, a support member, and a membrane. The outer wall has an outer opening. The inner wall has an inner opening. The support member is disposed laterally on the inner wall such that a flow chamber is defined between the outer and inner walls. The membrane is supported by the support member along the outer wall. A fluid transfer module includes an inlet port and an actuator. The actuator undergoes vibrational motion and has first and second vibrational modes. The first vibrational mode causes fluid to enter the inlet port. The second vibrational mode expels fluid from the inlet port, which reduces clogging of the inlet port.

A heat exchanger for a vehicle heat management system comprising a first cooling loop and a second cooling loop which is separate from the first cooling loop. The heat exchanger is configured to enable a thermal coupling of the first cooling loop and the second cooling loop. In a coupled condition, the first cooling loop, the second cooling loop and the heat exchanger are configured such that heat can be dissipated from one or more vehicle elements of a vehicle to the first cooling loop and can be further dissipated from the first cooling loop to the second cooling loop via the heat exchanger. The heat exchanger is configured to electrically isolate the first cooling loop from the second cooling loop.

An electrical connector assembly includes a connector housing in which a pair of electrically conductive busbars are disposed, a metallic cooling plate in thermal communication with major surfaces of the pair of electrically conductive busbars, and a dielectric structure that is configured to prevent electrical contact between the pair of electrically conductive busbars and the cooling plate.

A water block assembly comprising a water block unit and an insulating housing, and a method for insulating a water block unit are provided. The water block unit has an external thermal transfer surface configured to be in contact with a heat generating component to be cooled, and defines an internal fluid conduit for circulating fluid therein, a fluid inlet for feeding fluid into the internal fluid conduit, and a fluid outlet for discharging fluid from the internal fluid conduit. The insulating housing at least partly embeds the water block unit therein to limit heat transfer from the water block unit to a surrounding environment thereof, the insulating housing having an internal surface in contact with the water block unit.