The cable attaches a first component and a second component using a quick disconnect connector pair. The cable includes a twisted pair of wires with a separate shield. A portion of the shielding near the connector is removed to expose the wires and assemble the wires to the connector. To reduce the EMI leakage, the inner shell encloses the exposed portions of the wires. In order to maintain the ground path for the shielding of the shielded twisted wire pairs, the shielding for the twisted wire pairs is connected to the shell. The outer shells facilitate the quick disconnect feature. The outer shell includes one or more slots. The slot allows a portion of the outer shell to become a cantilever beam. The beam deflects during disengagement and engagement with the outer shell.

The present invention aims to miniaturize a housing. Disclosed is a connector including a female housing (10) having a terminal accommodating chamber (11) formed therein, a first terminal fitting (24) inserted into the terminal accommodating chamber (11), an elastically displaceable lock arm (12) formed in the female housing (10), an accommodating recess (14) formed in the female housing (10) and communicating with a deflection space (13) of the lock arm (12), a terminal holding member (41) mounted in the accommodating recess (14), and a pair of second terminal fittings (58) connected to a twisted pair wire (59) and attached to the terminal holding member (41).

The present invention aims to miniaturize a housing. Disclosed is a connector including a female housing (10) having a terminal accommodating chamber (11) formed therein, a first terminal fitting (24) inserted into the terminal accommodating chamber (11), an elastically displaceable lock arm (12) formed in the female housing (10), an accommodating recess (14) formed in the female housing (10) and communicating with a deflection space (13) of the lock arm (12), a terminal holding member (41) mounted in the accommodating recess (14), and a pair of second terminal fittings (58) connected to a twisted pair wire (59) and attached to the terminal holding member (41).

A method and apparatus for providing a tracer function for networked cable systems used for data or power transmission. A self contained and self powered indicator circuit is described that enables tracing the location of both ends of a networked cable.

A method and apparatus for providing a tracer function for networked cable systems used for data or power transmission. A self contained and self powered indicator circuit is described that enables tracing the location of both ends of a networked cable.

An electrical connector for electrically connecting at least two electrical conductors featuring first and second electrical cables. The connector features at least one first conductor plate allocated to the first cable and at least one second conductor plate allocated to the second cable. Each conductor plate features in total a number of conducting structures with first contact sections which corresponds to at least the number of the conductors for electrical contacting of the allocated conductors and also second contact sections. Furthermore, the connector features a number of coupling elements corresponding to the number of conductors which are designed for electrically contacting the second contact sections of the respective conductor plate allocated to the respective conductor by bridging of a spatial gap between the first and second conductor plate.

A connector (1) includes a dielectric (10) having conductor accommodation chambers (17) laterally partitioned by a separation wall (15), inner conductors (36) individually accommodated in the conductor accommodation chambers (17), a body (11) made of synthetic resin, constituting the dielectric (10) and formed with the separation wall (15) and the conductor accommodation chambers (17), and a front wall (28) made of synthetic resin, constituting the dielectric (10) and mounted on a front part of the body (11) to close front end openings of the conductor accommodation chambers (17). The separation wall (15) is made of a material having a lower dielectric constant than the front wall (28), and the front wall (28) is made of a material having a higher mechanical strength than the separation wall (15).

A connector (1) includes a dielectric (10) having conductor accommodation chambers (17) laterally partitioned by a separation wall (15), inner conductors (36) individually accommodated in the conductor accommodation chambers (17), a body (11) made of synthetic resin, constituting the dielectric (10) and formed with the separation wall (15) and the conductor accommodation chambers (17), and a front wall (28) made of synthetic resin, constituting the dielectric (10) and mounted on a front part of the body (11) to close front end openings of the conductor accommodation chambers (17). The separation wall (15) is made of a material having a lower dielectric constant than the front wall (28), and the front wall (28) is made of a material having a higher mechanical strength than the separation wall (15).

An inline communications connector is provided that includes a housing and tip and ring contacts that are mounted in the housing. The tip contact includes an input tip socket, an output tip socket and a tip socket connection section that physically and electrically connects the input and output tip sockets. The ring contact includes an input ring socket, an output ring socket and a ring socket connection section that physically and electrically connects the input and output ring sockets. The input tip socket is not collinear with the output tip socket and the input ring socket is not collinear with the output ring socket.

An inline communications connector is provided that includes a housing and tip and ring contacts that are mounted in the housing. The tip contact includes an input tip socket, an output tip socket and a tip socket connection section that physically and electrically connects the input and output tip sockets. The ring contact includes an input ring socket, an output ring socket and a ring socket connection section that physically and electrically connects the input and output ring sockets. The input tip socket is not collinear with the output tip socket and the input ring socket is not collinear with the output ring socket.