A connector assembly and method of attaching the same to one or more biosensor module boards. The connector assembly includes a body portion defining a first surface and a second surface opposite the first surface. The connector assembly also includes a coaxial RF connector positioned in the body portion and extending between the first surface and the second surface. The coaxial RF connector includes a ground ring, an RF pin positioned within the ground ring, and dielectric therebetween. The connector assembly is configured to be coupled to an RF detection board such that the coaxial RF connector is operably coupled thereto. The connector assembly is also configured to be connected to a biosensor module board such that the coaxial RF connector is operably connected thereto.

A terminal for connecting electric wires and a connector using the same provide a terminal which includes a main body part having a band shape, a first connection part, and a second connection part and in which the first and second connection parts are curved at a right angle to each other so that electric wires are connected in the state in which the electric wires are intersected and arranged at a right angle to each other. Accordingly, a flow of a current can be branched through a simple terminal structure. As a result, a current can be supplied to various supply places through the minimum part.

The present invention discloses a smart electrical socket device enabling the detection of the temperature of the room in which it is installed; the device comprising a housing (1) essentially of a rectangular parallelepiped shape, where the front surface presents a female connection (6) enabling an external element (13) to be plugged in, and the rear surface includes pins (11) for the connection thereof to a power source; further incorporating a temperature module comprising a temperature sensor (2) disposed at the lower part of the internal metallic structure (10) and cut-outs (2.1) in the printed circuit board (PCB) (20) to isolate the heat produced by said board; a power consumption sensor circuit (4) disposed facing the printed circuit board (PCB) (20) and opposite the temperature sensor (2); a load actuator comprised of at least one relay; a power source (14); and a wireless communication module (5) disposed on the internal structure (PCB) (10).

An electrical connector includes: an insulative base; a center contact secured to the insulative base and extending upward out of the insulative base; and an outer shell secured to the insulative base and extending upward out of the insulative base beyond the center contact, the outer shell having a lower cylindrical part and an upper guiding part, wherein the center contact and the outer shell are insert-molded with the insulative base, the guiding part of the outer shell has an upper free end located inwardly of an interior wall of the lower cylindrical part in a top view, and the insulative base has a through hole encompassing the upper free end of the guiding part in a top view.

A variety of active cover plate configurations with prongs configured to contact side screw terminals of electrical receptacles are described.

A power tool, which includes a receiving device having at least one receiving element and a power supply unit connectable to the power tool, for example a rechargeable battery, which includes a connecting device, the connecting device having at least one contact element, the receiving device being designed to receive and hold the connecting device, so that the at least one receiving element and the at least one contact element are connectable to each other for establishing an electrical connection. A damping element is provided on at least one contact element, whereby the at least one contact element is movable in a first direction and a second direction as well as relative to the particular receiving element, so that it is possible to counteract a relative movement between the contact element and the particular receiving element when the contact element and the receiving element are connected to each other.

A method for coupling a coaxial cable to a coaxial cable connector assembly includes inserting a coaxial cable into a cable channel of a rear body of a coaxial cable connector assembly, where the coaxial cable connector assembly includes an adhesive reservoir positioned at least partially within the cable channel of the rear body, the adhesive reservoir comprising an adhesive and an adhesive reservoir seal material that at least partially encapsulates the adhesive, inserting at least a portion of the coaxial cable into the adhesive reservoir, and exposing the adhesive to electromagnetic energy thereby curing the adhesive, by at least one of directing electromagnetic energy from an energy source on the adhesive, and removing an outer jacket from an outer wall of the rear body.

An aircraft and its connector where the connector has a first pluggable unit and a second pluggable unit, the end of the first pluggable unit is provided with several terminal pins, the end of the second pluggable unit is provided with several terminal sockets, and the terminal pin and the terminal socket can be operatively connected in a corresponding manner. The end of the first pluggable unit and the end of the second pluggable unit are also provided with an error-proof protrusion part and an error-proof concave part respectively. The error-proof protrusion part and the error-proof concave part are operatively connected in a corresponding manner.

An edge launch radio frequency (RF) signal connector includes ground contact tabs that have radially extending arms. The arms cover a gap between a substrate, such as a circuit board, and the connector to reduce the RF ground path between the RF reference ground and a signal pin supported by the connector. The arms extend radially inwardly from the protruding ground contact tabs toward a central support aperture that supports the signal pin. The arms and the ground contact tabs are formed integrally with the main connector body as one piece. The arms and the ground contact tabs may be planar in shape such that the arms and the ground contact tabs lie flush on the substrate when the connector is arranged over the edge of the substrate.

A controlled impedance compressible electrical connector having a housing with at least one terminal receiving cavity which extends from a first surface of the housing to a second surface of the housing. A terminal assembly is positioned in each of the at least one terminal receiving cavities of the housing. The terminal assembly has a first fixed center terminal, a second movable center terminal, a fixed outer shell, a movable outer shell, and a resilient member. The terminal assembly is configured to allow impedance of the electrical connector to be maintained as the second movable center terminal and the movable outer shell are moved relative to the first fixed center terminal, the fixed outer shell and the housing.