A method for producing an electronic device for use within a switchgear cabinet, includes providing connection elements for the electronic device that are first integrated in a device housing provided for the electronic device. Then a circuit board for the electronic device is inserted in the device housing and the connection elements are connected to the circuit board.

-- A connector is provided with a movable conductive member (30) and a fixed conductive member (35) capable of electrically contacting a first conductor (42) and a second conductor (57) as connection objects, and a pressing member (25) made of a resilient insulating material and configured to apply a pressing force in a contact direction to the movable conductive member (30), the fixed conductive member (35), the first conductor (42) and the second conductor (57). The pressing member (25) includes a first pressing portion (26R) for applying a pressing force to the first conductor (42) and a second pressing portion (26F) for applying a pressing force to the second conductor (57). The first pressing portion (26R) and the second pressing portion (26F) are resiliently deformable independently of each other.

An electrical terminal includes a base, a first elastic arm and a second elastic arm formed side by side by extending upwardly from an upper end of the base, and a protruding portion. The first elastic arm has a mating portion, and the second elastic arm has a contact portion. The protruding portion protrudes and extends from a first side of the first elastic arm, and the first side of the first elastic arm is adjacent to the second elastic arm. A lower surface of the protruding portion has a contact surface overlapping with the contact portion in a vertical direction, such that the contact portion upwardly abuts the contact surface. When the chip module presses downwardly on the electrical terminal, the contact portion can move on the contact surface, such that the chip module does not need to press downwardly on the contact portion with a relatively large pressure.

A system for connecting superconducting tapes in a superconducting fault current limiter (SCFCL) system is disclosed. The novel connector system allows two superconducting tapes to be installed in a single opening in a connector stack. This reduced the height of the connector stack by nearly 50%, making the SCFCL system more efficient and smaller in volume. In one embodiment, each connector has a recessed portion on both the top and bottom surfaces, such that when stacked on another connector, the recessed portions align, forming a larger opening. In another embodiment, the connector has a single recessed portion that can accommodate two superconducting tapes. The superconducting tapes may be disposed in a protective sleeve.

A system for connecting superconducting tapes in a superconducting fault current limiter (SCFCL) system is disclosed. The novel connector system allows two superconducting tapes to be installed in a single opening in a connector stack. This reduced the height of the connector stack by nearly 50%, making the SCFCL system more efficient and smaller in volume. In one embodiment, each connector has a recessed portion on both the top and bottom surfaces, such that when stacked on another connector, the recessed portions align, forming a larger opening. In another embodiment, the connector has a single recessed portion that can accommodate two superconducting tapes. The superconducting tapes may be disposed in a protective sleeve.

A terminal 12 connected to a front end portion of an electric cable 11 in the extension direction thereof is provided with a terminal main body 15 sandwiching the electric cable 11, and a slide member 16 which is capable of sliding relative to the terminal main body 15 in the extension direction of the electric cable 11. The terminal main body 15 includes a sandwiching portion 19 which is formed by means of a machined metal sheet material 60 and which sandwiches the electric cable 11, wherein: the sandwiching portion 19 includes a first holding projecting portion 23B which is formed by folding over the metal sheet material 60 at a side edge thereof that intersects the extension direction of the electric cable 11, and which projects out toward the electric cable 11 and is in contact with the electric cable 11, and a second holding projecting portion 23C which is formed by folding over the metal sheet material 60 at a side edge thereof in the extension direction of the electric cable 11, in such a way as to be positioned forward of the first holding projecting portion 23B in the extension direction of the electric cable 11, and which projects out toward the electric cable 11 and is in contact with the electric cable 11; and the slide member 16 includes a pressing portion which presses the sandwiching portion 19 toward the electric cable 11.

A terminal 12 connected to a front end portion of an electric cable 11 in the extension direction thereof is provided with a terminal main body 15 sandwiching the electric cable 11, and a slide member 16 which is capable of sliding relative to the terminal main body 15 in the extension direction of the electric cable 11. The terminal main body 15 includes a sandwiching portion 19 which is formed by means of a machined metal sheet material 60 and which sandwiches the electric cable 11, wherein: the sandwiching portion 19 includes a first holding projecting portion 23B which is formed by folding over the metal sheet material 60 at a side edge thereof that intersects the extension direction of the electric cable 11, and which projects out toward the electric cable 11 and is in contact with the electric cable 11, and a second holding projecting portion 23C which is formed by folding over the metal sheet material 60 at a side edge thereof in the extension direction of the electric cable 11, in such a way as to be positioned forward of the first holding projecting portion 23B in the extension direction of the electric cable 11, and which projects out toward the electric cable 11 and is in contact with the electric cable 11; and the slide member 16 includes a pressing portion which presses the sandwiching portion 19 toward the electric cable 11.

A cable connector includes an insulating housing with a receiving cavity, a metal connecting member with an inner cavity, a conductive terminal, a cable, and an unlocking mechanism. The conductive terminal is installed in the inner cavity of the metal connecting member. The metal connecting member is received in the receiving cavity and connected with the cable. The insulating housing includes a body portion and a locking portion located on one side of the body portion. The unlocking mechanism cooperates with the locking portion and is configured to drive the first end portion to move in a first direction and drive the second end portion to move in a second direction. The present disclosure also provides a cable connector assembly. By providing the unlocking mechanism matched with the insulating housing, it facilitates the unlocking between the cable connector and the mating connector.

A cable connector includes an insulating housing with a receiving cavity, a metal connecting member with an inner cavity, a conductive terminal, a cable, and an unlocking mechanism. The conductive terminal is installed in the inner cavity of the metal connecting member. The metal connecting member is received in the receiving cavity and connected with the cable. The insulating housing includes a body portion and a locking portion located on one side of the body portion. The unlocking mechanism cooperates with the locking portion and is configured to drive the first end portion to move in a first direction and drive the second end portion to move in a second direction. The present disclosure also provides a cable connector assembly. By providing the unlocking mechanism matched with the insulating housing, it facilitates the unlocking between the cable connector and the mating connector.

An electrical connector includes: an insulative housing having a rear base and a front tongue; an upper and lower rows of contacts mounted in the insulative housing and exposed to the tongue; a shielding shell enclosing the insulative housing; and a sealing element sealing a junction between the insulative housing and the shielding shell; wherein the shielding shell includes a rear step located immediately adjacent the junction and a recess at a corner of the step, and the base of the insulative housing includes a step fitting the rear step of the shielding shell.