The disclosure relates to an electronic device with active cooling. In order to make a compact design of an electronic device possible and furthermore ensure a high level of ESD/EMC protection and a high level of IP protection, it is proposed according to the disclosure that a housing of the electronic device is connected to a main body of a fan. When the main body and housing are in a connected state, an opening to the interior of the housing is closed off. The main body is furthermore connected to a bushing on which the fan rotor is mounted for rotation. In the connected state, a chamber is furthermore formed which is separated from the interior of the housing and in which the fan rotor is arranged. Here, the chamber forms a housing for the fan rotor.

The disclosure relates to a wireless charging device including a cooling fan, and the wireless charging device according to an embodiment of the disclosure includes: a housing including a holding portion configured to hold an external electronic device; a first bracket positioned in the holding portion; a conductive coil disposed in the first bracket; a second bracket positioned in the holding portion and including a penetrating hole; a first cooling fan positioned in the penetrating hole; a second cooling fan positioned in the penetrating hole and spaced apart from the first cooling fan; and a partition formed in the penetrating hole to isolate the first cooling fan and the second cooling fan from each other, the penetrating hole being divided into a first area having the first cooling fan disposed therein and a second area having the second cooling fan positioned therein, at least one protrusion having a volute shape formed on at least a portion of the second bracket or at least a portion of the partition, a first opening formed on at least an area of the first bracket to allow air cooled by the first cooling fan and/or the second cooling fan to move to the holding portion, and a second opening formed on at least an area of the holding portion to allow the air transmitted from the first opening to move outside the wireless charging device.

A heat sink for cooling at least one power electronics device in a coil unit includes a base plate having a first portion and a second portion. The second portion is arranged vertically beneath the first portion. A plurality of fins extends from a surface of the base plate. The plurality of fins is located at the second portion of the base plate. A height of the plurality of fins measured perpendicular to the surface varies across a width of the base plate.

A heat sink for cooling at least one power electronics device in a coil unit includes a base plate having a first surface and a plurality of fins extending from the first surface. A height of the plurality of fins measured perpendicular to the first surface varies across a width of the base plate.

A charger is provided with an intake hole through which outside air may flow into the interior of and through the body of the charger, and an exhaust hole from which the outside air is discharged through by the driving a cooling fan. A first vertical wall that surrounds the intake hole or a region exposed to water that drops down the intake hole in a fence-shaped manner, and a second vertical wall that surrounds the exhaust hole or a region exposed to water that drops down the exhaust hole in a fence-shaped manner are provided on a bottom plate of the housing. An electrical circuit board is disposed outward of an area where the first vertical wall surrounds the intake hole and also disposed outward of an area where the second vertical wall surrounds the region exposed to water that drops down the exhaust hole etc.

A DC power supply device includes a first conversion unit connected to an AC power supply, a second conversion unit connected to an electric tool, and a cable connecting the first conversion unit and the second conversion unit to each other. The first conversion unit includes a power factor correction circuit, converts an AC voltage having a first voltage value, input from the AC power supply, into a DC voltage having a second voltage value higher than the first voltage value, and outputs the DC voltage having the second voltage value to the cable. The second conversion unit converts the output voltage of the first conversion unit, input via the cable, into a DC voltage having a third voltage value lower than the second voltage value, and outputs the DC voltage having the third voltage value to the electric tool.

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.

A mechanical assembly includes a power semiconductor device located inside of a mechanical enclosure, and a magnetic component located outside of the mechanical enclosure and operably connected to the power semiconductor device. The power semiconductor device and the magnetic component are cooled via a common air pathway outside of the mechanical enclosure. A power converter includes a powered semiconductor device located inside of a mechanical enclosure, the power semiconductor device configured to convert DC input power to AC output power, and an inductor located outside of the mechanical enclosure and operably connected to the power semiconductor device. The power semiconductor device and the magnetic component are cooled via a common air pathway outside of the mechanical enclosure.

According to various embodiments, a wireless charging device can comprise: a first housing, which includes a first surface facing a first direction and a second surface facing a second direction opposite to the first direction, and includes at least one hole; a second housing arranged on the second surface of the first housing in the second direction; a coil unit arranged between the first housing and the second housing and configured to transmit power to an external device; a shielding member arranged adjacent to the coil unit and including at least one hole; and a fan arranged adjacent to the coil unit and configured to rotate.

An electronics module is configured to provide power to one of a plurality of different types of coil modules utilized for wireless charging. The electronics module includes an input power interface configured to receive direct current (DC) power, a DC-to-AC converter circuitry configured to convert the DC power to alternating current (AC) power, and an output power interface having a first set of output pins and at least a second set of output pins configured to interface with each of the plurality of different types of coil modules, wherein AC power is selectively provided to the first set of output pins, or both the first and second set of output pins based on a type of coil module connected to the electronics module.