The present disclosure provides a connector, which relates to the technical field of electrical connection devices, so as to solve the problem of poor connection stability of connectors in existing technologies. The connector includes a mounting base and a binding post, wherein the binding post has both sides symmetrically provided with a fixed fin, the mounting base defines thereon a mounting groove for mounting the binding post, two sides of the mounting groove define a limit groove, and the fixed fin is clamped in the limit groove so as to enable the binding post to be limited to the mounting groove. The connector according to the present disclosure has good connection stability and can effectively transmit current or signal, enabling an effective cooperation between connected devices.

The present disclosure provides a connector, which relates to the technical field of electrical connection devices, so as to solve the problem of poor connection stability of connectors in existing technologies. The connector includes a mounting base and a binding post, wherein the binding post has both sides symmetrically provided with a fixed fin, the mounting base defines thereon a mounting groove for mounting the binding post, two sides of the mounting groove define a limit groove, and the fixed fin is clamped in the limit groove so as to enable the binding post to be limited to the mounting groove. The connector according to the present disclosure has good connection stability and can effectively transmit current or signal, enabling an effective cooperation between connected devices.

An electrical connector assembly includes a first electrical connector and a second electrical connector. The first electrical connector includes a first insulative housing having a receiving room, a number of conductive terminals affixed to the first insulative housing, and a metal shell enclosing the first insulative housing. The insulative housing defines a top wall and a bottom wall separated from the top wall. The conductive terminals are arranged in an upper row and a lower row. The second electrical connector includes a second insulative housing having a tongue portion extending forwardly and a number of mating terminals disposed on the tongue portion. The first electrical connector is located in an electrical device. The tongue portion of the second electrical connector is received in the receiving room of the first insulative housing. The tongue portion is sandwiched between the top wall and the bottom wall.

An electrical connector includes an insulative housing having a tongue portion with opposite upper and lower surfaces, a plurality of upper terminals and a plurality of lower terminals with contacting sections exposed upon the corresponding upper surface and lower surface, respectively. A metallic shielding plate located between upper terminals and the lower terminals. The tongue portion forms a first type hole in which the upper power terminal mechanically and electrically connects to the lower power terminal, and a second type hole in which either the upper grounding terminal mechanically and electrically connects to an upper face of the shielding plate or the lower grounding terminal mechanically and electrically connects to the lower face of the shielding plate.

A lead assembly includes at plurality of drop line joined to a feeder cable at joints each having a compression lug that is preferably surrounded by undermolding and overmolding. In use, each drop line is connected to a solar array, and the feeder cable is connected to an inverter. In this manner a plurality of solar arrays are electrically coupled together, with a common feeder cable connecting them all to the inverter. A system of the present invention doesn't require a combiner box which is conventionally employed directly upstream of the inverter.

A lead assembly includes at plurality of drop line joined to a feeder cable at joints each having a compression lug that is preferably surrounded by undermolding and overmolding. In use, each drop line is connected to a solar array, and the feeder cable is connected to an inverter. In this manner a plurality of solar arrays are electrically coupled together, with a common feeder cable connecting them all to the inverter. A system of the present invention doesn't require a combiner box which is conventionally employed directly upstream of the inverter.

An electrical connector is disclosed that includes an insulative housing having a mating face at one end, a rear face at another end, a mating slot at the mating face for receiving a complementary connector, a first set of contacts mounted in a first set of channels incorporated at a top of the insulative housing and a second set of contacts mounted in a second set of channels incorporated at a bottom of the insulative housing, and a shielding device located between the first set of contacts and the second set of contacts.

An electric terminal assembly includes a conductor. The conductor has a conductor body and a plurality of contact arms that extend from the conductor body in an outward direction to respective arm ends. The contact arms are located around a terminal axis. The electric terminal assembly also includes a cap fixed relative to the conductor. The cap is located farther from the conductor body in the outward direction than the arm ends. The cap defines a cap opening that the terminal axis extends through. The cap is located farther from the conductor body in the outward direction than the arm ends, and the cap is closer to the terminal axis than the arm ends.

A high-voltage cable set, in particular for a vehicle electrical system, contains a plurality of cables, which are surrounded by a common shield, and a connector, which consists of a conducting material and is electrically connected to the shield. For this purpose, a contact sleeve is integrated into the connector, the shield being fastened to the contact sleeve. The risk of contact corrosion is thereby significantly reduced.

A shield structure includes a hollow tubular shield member, a shield shell having a plate-like shell body which is formed with a through hole, and a plate-like bent piece which is extended from an inner edge of the shell body that defines the through hole and which is bent to rise from the shell body, and an annular member which surrounds and fastens the bent piece, wherein at least one bent piece of the shield shell is extended from the inner edge of the shell body, and when the annular member surrounds and fastens the bent piece an outer surface of which is covered with a leading end in the longitudinal direction of the shield member, the leading end is clamped between the annular member and the bent piece.