An electrical unit may include an electrical unit housing having a first housing member, a second housing member, and/or a third housing member; a circuit board that may be disposed at least partially in the electrical unit housing; a fastener that may be disposed at least partially in the first housing member, the second housing member, the third housing member, and/or the circuit board; and/or a bushing that may be disposed at least partially in the first housing member, the second housing member, and/or the circuit board. The fastener may be disposed at least partially in the bushing.

Various embodiments of an electronic package and implantable medical device are disclosed. The electronic package includes a nonconductive substrate having a first major surface, a second major surface, and an opening disposed through the substrate between the first major surface and the second major surface. The package also includes a conductive layer hermetically sealed to the first major surface of the substrate and over the opening; a conductor block disposed in the opening and extending beyond the second major surface of the substrate, where the conductor block is electrically connected to the conductive layer; and an electronic device disposed adjacent to the first major surface of the substrate and electrically connected to the conductive layer. The package also includes a nonconductive cover disposed over the electronic device and the nonconductive substrate and hermetically sealed to the substrate, where the electronic device is disposed within a cavity of the cover.

The present invention provides an external module including a housing and an electronic component. One surface of the housing is provided with a through hole. The electronic component is disposed in the housing and includes a first connector, wherein the first connector is floatingly arranged in the housing and is exposed in the through hole.

The invention relates to an external assembly component including a body, a housing and a buffer sleeve. The body is provided with a connector. The housing is provided with a notch, and a surrounding wall encircling the notch is erected on an outer side of the housing. The body is accommodated in the housing. The connector passes through the notch toward the outside, the surrounding wall encircles the connector, and the buffer sleeve covers the surrounding wall. Thus, a plug of the connector can be effectively protected from impact and damage, and waterproof and dustproof effects are provided.

A case for use with a portable computing device is provided. The case comprises a housing for protecting the portable computing device. The housing is configured to attach to the portable computing device. The case further comprises a multiport hub and/or a data storage device contained within the housing. The multiport hub is configured to be electrically connected to the portable computing device.

One embodiment relates to a camera module comprising: a housing; a first printed circuit board having an image sensor mounted thereon, and loaded in the housing such that the image sensor is accommodated in the housing; a second printed circuit board and a third printed circuit board sequentially arranged on the lower part of the first printed circuit board in the vertical direction; a support unit arranged in the housing while accommodating the first printed circuit board therein, and having a stepped portion including a first loading portion at which the second printed circuit board is placed and a second loading portion at which the third printed circuit board is placed; and a fixing unit coupled to the housing by penetrating through a first groove portion and a second groove portion, which are respectively formed at the edge parts of the second printed circuit board and the third printed circuit board, and through a third groove portion formed at the edge part of the support unit.

A metering unit for the controlled supply of a substance inside an aquarium tank comprises a containment box and a dosimetric pump which is actuated by an electric motor, both being associated with the containment box. The containment box has at least a first connection element and at least a second connection element which is suitable for being connected to a corresponding first connection element of an additional similar metering unit.

An electrical junction box includes a conductive input busbar, a conductive output busbar electrically connectable to the input busbar, a semiconductor relay electrically connected to the input busbar and the output busbar and configured to switch a connected state and a disconnected state of the input busbar and the output busbar, a substrate having mounted thereon a control circuit configured to output a control signal for controlling the semiconductor relay, and a control terminal electrically connecting the control circuit and the semiconductor relay to each other to output the control signal to the semiconductor relay. The semiconductor relay is mounted on at least one of the input busbar and the output busbar. The input busbar, the output busbar, and the semiconductor relay are disposed away from the substrate.

Provided is an inexpensive charger which is compact and which yet provides favorable heat dissipation performance. The charger includes a charging circuit board comprised of an input/output interface component and a charging circuit component mounted on a substrate having a first face and a second face which are in parallel and front/back relationship with each other and a housing including a first housing body to which the charging circuit board is fixed and a second housing body engageable with the first housing body to form together an inner space in which the charging circuit board is to be accommodated. The second face of the substrate mounts thereon a heat generating component included in the circuit component. A heat dissipation pattern is formed at a part of the first face overlapped with at least a part of the heat generating component mounted on the second face as seen in a direction perpendicular to the first face.

A connector assembling structure is provided. The connector assembling structure includes a shell, a circuit board, a connector, a fixing member, and an elastic member. The circuit board is disposed on the shell. The connector is disposed on the circuit board. The fixing member is fixed on the shell. The elastic member is disposed on the fixing member. The circuit board includes a pillar. The fixing member includes a fixing member opening corresponding to the pillar. The pillar passes through the fixing member opening. The size of the fixing member opening is greater than the size of the pillar, such that the circuit board and the elastic member may move relative to the fixing member through the fixing member opening.