The application concerns a cooling arrangement for a power tool and a power tool comprising the cooling arrangement. According to an aspect of the invention a cooling arrangement for a power tool comprises a housing of the power tool and electronics. The electronics include at least one circuit board and at least one electronic component. The electronics comprise at least one heat conductive area. The at least one heat conductive area is arranged to be heat conductively connected to the housing of the power tool.

A device that includes a first integrated device, a second integrated device configured to be electrically coupled to the first integrated device and an electrowetting device configured to be electrically coupled to the second integrated device. The electrowetting device is configured to redistribute heat across a back surface of the device by looping a liquid in the electrowetting device, along the back surface of the device.

An electronic device is provided. The electronic device includes a circuit board, at least one electric component disposed on one surface of the circuit board, a shield can mounted on the one surface of the circuit board, with the at least one electric component received in the shield can, and including at least one opening formed in an area corresponding to the at least one electric component, a shielding sheet disposed in at least a portion of the shield can and blocking at least a portion of the at least one opening, and a heat transfer member disposed in contact between the at least one electric component and the shielding sheet. The shielding sheet includes a flexible structure.

A holder has a holding body, a spring member, and a tensioning member. The holding body forms a cavity to receive the electronic component. A connecting section has a thermally conductive heat conductive section adjacent to the cavity. The tensioning member tensions the spring member. The spring member supports itself in a tensioned state on a counter-holding member. The spring member moves a connecting surface of the holding body to the cooling body and/or presses it against the cooling body.

A heat exchanger assembly includes a heat exchanger and a power electronics module mounted to the heat exchanger. The power electronics module is thermally coupled to the heat exchanger at a heat sink interface. A thermal interface material is arranged between the heat sink interface and a surface of the heat exchanger and a gasket arranged between the heat sink interface and the surface of the heat exchanger.

An assembly comprising a substrate, a first integrated device coupled to the substrate, a second integrated device coupled to the substrate, a frame coupled to the substrate such that the frame at least partially surrounds the first integrated device and the second integrated device, and a step heat sink coupled to the frame, such that the step heat sink is located over the first integrated device and the second integrated device. The assembly may further include a shield coupled to the frame such that the shield is located between the frame and the step heat sink. The shield may include a step shield. The assembly may further include a heat pipe coupled to the step heat sink.

An electronic control device includes an enclosure including a first enclosure having an assembly opening and a second enclosure covering the entire assembly opening, the enclosure having a communication opening communicating with the assembly opening; a circuit board accommodated in the enclosure; an integrated circuit element mounted on the circuit board; and a heat dissipating shield member thermally coupled to the integrated circuit element and grounded, wherein the heat dissipating shield member includes an inner portion accommodated inside the enclosure and thermally coupled to the integrated circuit element and an outer portion extending to an outside of the enclosure via the communication opening.

A heat transfer assembly includes a heat plate coupled to a spring and to a graphite sheet. The spring is at first location corresponding to a heat source in an assembled device. The graphite sheet extends over at least a middle portion of the spring and over portions of the heat plate. The graphite sheet is coupled to a thermal pad positioned above a given surface of the heat source. The spring provides a compressive force on the thermal pad when the device is in an assembled state. The compressive force enhances thermal conductivity between the heat source and the heat transfer assembly. The heat plate may be positioned within and thermally coupled to a cover of the device. Principally by use of the thermal pad, graphite sheet, and thermal plate, heat generated by the heat source is transferred to the cover and then to the external environment.

An electronic device is provided. The electronic device includes a housing, a first circuit board, and a first heat sink. The housing forms a receiving space. The first circuit board and the first heat sink are received in the receiving space along the gravity direction. One side of the first circuit board has at least one electronic element. The first heat sink has a first base board and at least first side board. The first base board is arranged adjacent to the first circuit board. The electronic element transferred heat to the first base board. The first side board connects to the first base board, and cooperatively forms a first heat dissipating channel along the gravity direction. The first side board is close to or contacts the housing, so that the heat of the electronic element can be transferred by heat conduction and heat convection to dissipate outside.

A power adapter and a manufacturing method thereof are provided. The power adapter includes a housing, a circuit board assembly, and a first heat dissipation part. There is accommodation space inside the housing, a line interface is disposed at a first end of the housing, and a power connector is disposed at a second end of the housing. The circuit board assembly is disposed in the accommodation space, and the circuit board assembly is electrically connected to the line interface and the power connector. The first heat dissipation part coats the outside of the circuit board assembly, and there is a gap between an outer wall of the first heat dissipation part and an inner wall of the housing.