A power distribution system includes a track having a first end, a second end opposite the first end, and a longitudinal axis extending through the first and second ends. The track defines a channel extending along the longitudinal axis. A plurality of power cables is positioned within the channel. A electrical hub is movably coupled to the second end of the track. The electrical hub is electrically connected to the plurality of power cables and includes a power receptacle. The electrical hub is movable relative to the second end of the track to change a position of the power receptacle relative to the track.

An electrical connector assembly includes a housing configured to receive an electrical terminal. Opposed sides of the housing each define a pair of parallel locking ribs forming a locking slot therebetween. Each locking slot is configured to receive a locking arm extending from a separate mounting bracket.

A method and apparatus for unlocking and remove at least one plug-in electrical or IoT device locked by two lock ramps included in two channel of ramps on two surfaces of the plug-in device engaging at least two reciprocal channel of ramps on two surfaces of a support box, by an insertable dual release bar attached to a pull cord or an handle of an hand tool for inserting two insertable bars between the channels of ramps and the reciprocal channels of ramps for unlock and pull to remove the plug-in device.

A modular passive RF apparatus includes a passive RF portal and a passive RF expansion module configured to be removably coupled with the passive RF portal. A male connector is configured to extend from a top surface of the passive RF portal, and a female connector is configured to extend from the first end wall of the passive RF expansion portal. The female connector is configured to slidingly engage the male connector in a direction parallel to the top surface of the passive RF portal in order to mechanically couple the passive RF expansion module with the passive RF portal, and the male connector is configured to prevent the female connector from being removed from the male connector in a direction perpendicular to the top surface of the passive RF portal.

A modular passive RF apparatus includes a passive RF portal and a passive RF expansion module configured to be removably coupled with the passive RF portal. A male connector is configured to extend from a top surface of the passive RF portal, and a female connector is configured to extend from the first end wall of the passive RF expansion portal. The female connector is configured to slidingly engage the male connector in a direction parallel to the top surface of the passive RF portal in order to mechanically couple the passive RF expansion module with the passive RF portal, and the male connector is configured to prevent the female connector from being removed from the male connector in a direction perpendicular to the top surface of the passive RF portal.

An antenna cable connection module in accordance with the present disclosure includes an antenna cable for forming a contact point connected to an antenna filter part; a body part located on the outer circumferential surface of the antenna cable, and inserted into a receiving port located on the antenna filter part together with the end portion of the antenna cable and coupled to the antenna filter part; and a bush interposed between the antenna cable and the body part, and having an inclined surface having a slope in a longitudinal direction formed thereon to strengthen the coupling between the antenna filter part and the antenna cable. As a result, it is possible to constitute a simple antenna cable connection module of a ground contact type, thus providing a device reducing the failure occurrence rate. In addition, it is possible to constitute a simple antenna cable connection module for an operator to easily operate, thus reducing the labor cost and saving the time consumed for an antenna cable connection.

A method and apparatus for unlocking and remove at least one plug-in electrical or IoT device locked by two lock ramps included in two channel of ramps on two surfaces of the plug-in device engaging at least two reciprocal channel of ramps on two surfaces of a support box, by an insertable dual release bar attached to a pull cord or an handle of an hand tool for inserting two insertable bars between the channels of ramps and the reciprocal channels of ramps for unlock and pull to remove the plug-in device.

A method and apparatus for unlocking and remove at least one plug-in electrical or IoT device locked by two lock ramps included in two channel of ramps on two surfaces of the plug-in device engaging at least two reciprocal channel of ramps on two surfaces of a support box, by an insertable dual release bar attached to a pull cord or an handle of an hand tool for inserting two insertable bars between the channels of ramps and the reciprocal channels of ramps for unlock and pull to remove the plug-in device.

A novel, interlocking, snap-fit connection between an antenna aperture and a ground plane layer that contains coaxial connectors is described herein. The snap-fit design provides a simple and solderless transition from the connectors to elements of the antenna aperture. This design facilitates easy assembly and disassembly, allowing parts to be removed, reinstalled and/or reused.

A novel, interlocking, snap-fit connection between an antenna aperture and a ground plane layer that contains coaxial connectors is described herein. The snap-fit design provides a simple and solderless transition from the connectors to elements of the antenna aperture. This design facilitates easy assembly and disassembly, allowing parts to be removed, reinstalled and/or reused.