A spring clip for a flat flexible cable includes a first beam and a second beam connected to the first beam and resiliently deflectable toward the first beam. The second beam has a first contact bend extending toward the first beam. The flat flexible cable is positioned between the first beam and the second beam and the first contact bend abuts a conductor exposed through an insulation material of the flat flexible cable to electrically connect the spring clip with the conductor.

A sensor dome arrangement has a sensor dome and a housing wall, which is particularly a transmission wall. The sensor dome includes a sensor, dome contacts which are electrically connected to the sensor, and a dome housing. The dome housing has a first dome housing section in which the sensor is arranged, and a second dome housing section on or in which the dome contacts are arranged. A through-opening is made in the housing wall, and the sensor dome is attached to the housing wall such that at least one outer surface of the first dome housing section faces a first chamber which is adjacent to the sensor dome and an inner side of the housing wall, and such that the dome contacts face a second chamber which is adjacent to the sensor dome and an outer side of the housing wall.

A sensor dome arrangement has a sensor dome and a housing wall, which is particularly a transmission wall. The sensor dome includes a sensor, dome contacts which are electrically connected to the sensor, and a dome housing. The dome housing has a first dome housing section in which the sensor is arranged, and a second dome housing section on or in which the dome contacts are arranged. A through-opening is made in the housing wall, and the sensor dome is attached to the housing wall such that at least one outer surface of the first dome housing section faces a first chamber which is adjacent to the sensor dome and an inner side of the housing wall, and such that the dome contacts face a second chamber which is adjacent to the sensor dome and an outer side of the housing wall.

An in-line switch assembly comprising a housing and two ports at different parts of the housing for insertion of an end of a power cord into the housing. The housing has first and second housing parts. A connection mechanism is provided in each of the ports, adapted to receive an end of a power cord, and is operable to cause piercing of a piercing part through a sheath of a power cord and then electrical contact with a conductive core of the power cord. The housing is configured to undergo from a first state in which the first and second housing parts are partially attached together, thereby allowing insertion of an end of a power cord through each of the ports to the respective connection mechanism, to a second state in which the first and second housing parts are fully attached together, with an inserted end of a said power cord being acted upon by the connection mechanism.

An in-line switch assembly comprising a housing and two ports at different parts of the housing for insertion of an end of a power cord into the housing. The housing has first and second housing parts. A connection mechanism is provided in each of the ports, adapted to receive an end of a power cord, and is operable to cause piercing of a piercing part through a sheath of a power cord and then electrical contact with a conductive core of the power cord. The housing is configured to undergo from a first state in which the first and second housing parts are partially attached together, thereby allowing insertion of an end of a power cord through each of the ports to the respective connection mechanism, to a second state in which the first and second housing parts are fully attached together, with an inserted end of a said power cord being acted upon by the connection mechanism.

A modular communications plug is disclosed having a simplified design that allows for more efficient termination of a cable into the plug. The plug includes modular components that are applicable to different applications.

A power distribution system includes a plurality of wires extending between a first end and a second end. The wires extend continuously between the first and second ends, Each wire includes an electrical conductor and an insulation layer. The power distribution system further includes a receptacle selectively positionable at any position along a length of the wires. The power receptacle includes a housing defining at least one power outlet. A plurality of connection members is positioned within the housing. Each connection member includes a first end and a second end. The first end is configured to contact the electrical conductors within the insulation layers of the plurality of wires for electrically connecting the plurality of connection members to the plurality of wires. The second end is configured to electrically connect the plurality of connection members to the at least one power outlet.

A method of manufacturing a terminal-equipped electrical wire includes: inserting a core-wire exposed part of a core wire of an electrical wire at a terminal between inner wall surfaces of a pair of piece parts of a terminal fitting including a core-wire connection body formed of a bottom part and the piece parts protruding from both ends of the bottom part, and placing the core-wire exposed part on an inner wall surface of the bottom part; melting the core-wire exposed part and the core-wire connection body by emitting a laser beam to the core-wire exposed part and the core-wire connection body from a free end side of each piece part; and fixing the core-wire exposed part and the core-wire connection body melted by the laser beam, with the emission of the laser beam stopped.

A method of manufacturing a terminal-equipped electrical wire includes: inserting a core-wire exposed part of a core wire of an electrical wire at a terminal between inner wall surfaces of a pair of piece parts of a terminal fitting including a core-wire connection body formed of a bottom part and the piece parts protruding from both ends of the bottom part, and placing the core-wire exposed part on an inner wall surface of the bottom part; melting the core-wire exposed part and the core-wire connection body by emitting a laser beam to the core-wire exposed part and the core-wire connection body from a free end side of each piece part; and fixing the core-wire exposed part and the core-wire connection body melted by the laser beam, with the emission of the laser beam stopped.

Provided is a connector that can enhance the waterproof performance without reducing a pressure of a contact surface between fillers in a fitted state. A connector (10) according to the present disclosure includes a pair of fitting objects to be fitted to each other and a filler (70), a contact (50) and a wall (42) provided in the fitting objects. The wall (42) separates the filler (70) and the contact (50) after the fitting objects are fitted to each other.