A connector assembly includes: a housing having a plurality of accommodating grooves into which a plurality of terminals are insertable, respectively, and having an insertion space recessed in a first direction intersecting a second direction in which the accommodating grooves extend, the plurality of accommodating grooves being formed in one surface of the housing; a terminal position assurance (TPA) mechanism inserted into the insertion space of the housing in the first direction, having a plurality of through-holes extending parallel to the plurality of accommodating grooves, and inhibiting the terminals inserted into the through-holes from being separated; joint terminals extending from an inside of the housing to the accommodating grooves, and electrically connected to the terminals inserted into the accommodating grooves; and a noise filter fixed to the housing or the TPA mechanism, and enclosing the accommodating grooves of the housing, the through-holes of the TPA mechanism, or the joint terminals.

A connector assembly includes: a housing having a plurality of accommodating grooves into which a plurality of terminals are insertable, respectively, and having an insertion space recessed in a first direction intersecting a second direction in which the accommodating grooves extend, the plurality of accommodating grooves being formed in one surface of the housing; a terminal position assurance (TPA) mechanism inserted into the insertion space of the housing in the first direction, having a plurality of through-holes extending parallel to the plurality of accommodating grooves, and inhibiting the terminals inserted into the through-holes from being separated; joint terminals extending from an inside of the housing to the accommodating grooves, and electrically connected to the terminals inserted into the accommodating grooves; and a noise filter fixed to the housing or the TPA mechanism, and enclosing the accommodating grooves of the housing, the through-holes of the TPA mechanism, or the joint terminals.

The present disclosure relates to a telecommunications jack including a housing having a port for receiving a plug. The jack also includes a plurality of contact springs adapted to make electrical contact with the plug when the plug is inserted into the port of the housing, and a plurality of wire termination contacts for terminating wires to the jack. The jack further includes a circuit board that electrically connects the contact springs to the wire termination contacts. The circuit board includes a multi-zone crosstalk compensation arrangement for reducing crosstalk at the jack.

The present disclosure relates to a telecommunications jack including a housing having a port for receiving a plug. The jack also includes a plurality of contact springs adapted to make electrical contact with the plug when the plug is inserted into the port of the housing, and a plurality of wire termination contacts for terminating wires to the jack. The jack further includes a circuit board that electrically connects the contact springs to the wire termination contacts. The circuit board includes a multi-zone crosstalk compensation arrangement for reducing crosstalk at the jack.

The invention relates to a sealed cable connector, including electric cables; an electrically insulating housing; electrical terminals, each of the electrical terminals having an end portion that is electrically connected to an end portion of a corresponding electric cable; the housing having a frame forming a cavity that extends in a z-direction, wherein connected end portions of the electric cables and the electrical terminals are provided within in the cavity of the frame; wherein the electrical terminals have a planar shape in the cavity and are oriented in the x-direction and the z-direction, in that the housing is molded onto the connected electric cables and the electrical terminals, and in that an electrically isolating material is injected into the cavity such that it seals the connected end portions of the electric cables and the electrical terminals. A manufacturing method and use of the sealed cable connector is also provided.

A connector including a first body, a second body, a dielectric film and one or more conductive traces. The first body has first and second opposite sides and includes an elastomeric absorber material with ferrite or iron powder dispersed therein. The second body includes the elastomeric absorber material with ferrite or iron powder dispersed therein. The dielectric film is disposed on surfaces of the first body to extend along and between the first and second opposite sides. The one or more conductive traces are sandwiched between the second body and the dielectric film to extend along and between the first and second opposite sides. The connector can be installed into a conductive aperture, to channel RF energy through it and thus effecting an absorptive RF filter for a signal.

A modular connector includes a housing, a circuit board located in the housing, a connector assembly connected to the circuit board, and a coil module mounted to the circuit board. The connector assembly includes a number of conductive terminals. The coil module includes a first coil module and a second coil module. The first coil module includes a number of first coils and a number of first coil groups. The second coil module includes a second coil. The second coil is divided into a number of second coil groups along its circumference. The first coil groups and corresponding second coil groups are coupled, thereby improving the electromagnetic shielding effect of the modular connector.

A modular connector includes a housing, a circuit board located in the housing, a connector assembly connected to the circuit board, and a coil module mounted to the circuit board. The connector assembly includes a number of conductive terminals. The coil module includes a first coil module and a second coil module. The first coil module includes a number of first coils and a number of first coil groups. The second coil module includes a second coil. The second coil is divided into a number of second coil groups along its circumference. The first coil groups and corresponding second coil groups are coupled, thereby improving the electromagnetic shielding effect of the modular connector.

An electrical connector for a multi-wire electrical cable includes at least two cable-side electrical contact elements, including associated terminals to each of which is to be connected a wire of the electrical cable, and at least two output-side electrical contact elements, from each of which projects an electrical connector element by which an electrical connection is establishable to a mating connector. A carrier body is disposed between the cable-side electrical contact elements and the output-side electrical contact elements. The cable-side electrical contact elements, the output-side electrical contact elements and the carrier body are disposed in a spaced-apart relationship to each other, and the cable-side and output-side contact elements are electrically connected to each other via an electrical device disposed on the carrier body.

An electrical connector for a multi-wire electrical cable includes at least two cable-side electrical contact elements, including associated terminals to each of which is to be connected a wire of the electrical cable, and at least two output-side electrical contact elements, from each of which projects an electrical connector element by which an electrical connection is establishable to a mating connector. A carrier body is disposed between the cable-side electrical contact elements and the output-side electrical contact elements. The cable-side electrical contact elements, the output-side electrical contact elements and the carrier body are disposed in a spaced-apart relationship to each other, and the cable-side and output-side contact elements are electrically connected to each other via an electrical device disposed on the carrier body.