An aspect of the present disclosure is directed to a connector. The connector is suited to connectorizing exactly two conductors. The connector includes a forward connector body, a rear connector body, a metal frame and exactly two electrical contacts. The rear connector body interfaces with the forward connector body. Further, the metal frame, which includes a shielding interface, surrounds at least a portion of both the forward and rear connector bodies. The electrical contacts extend from the rear connector body into the forward connector body. A first of the electrical contacts is electrically coupled to a first conductor of a shielded cable and the second of the electrical contacts is electrically coupled to a second conductor of the shielded cable. The shield interface of the metal frame is electrically coupled to the shield of the shielded cable.

A family of connectors to accommodate a single twisted pair of conductors is disclosed herein. The family of connectors includes a free connector, a fixed connector, and an adapter; the free and/or fixed connectors can be modified to accommodate the adapter configuration and/or modified to accommodate various patch cord configurations. In certain embodiments, the one or more of the family of connectors adopts an LC fiber optic style connector configuration and an LC fiber optic footprint configuration. In certain examples, one or more of the family of connectors adopts an LC fiber optic style connector configuration but in a footprint that is larger or smaller than the footprint of the LC fiber optic footprint. Other configurations may also be adopted.

A family of connectors to accommodate a single twisted pair of conductors is disclosed herein. The family of connectors includes a free connector, a fixed connector, and an adapter; the free and/or fixed connectors can be modified to accommodate the adapter configuration and/or modified to accommodate various patch cord configurations. In certain embodiments, the one or more of the family of connectors adopts an LC fiber optic style connector configuration and an LC fiber optic footprint configuration. In certain examples, one or more of the family of connectors adopts an LC fiber optic style connector configuration but in a footprint that is larger or smaller than the footprint of the LC fiber optic footprint. Other configurations may also be adopted.

An electrical and/or optical plug connection has a first plug connector and a second plug connector which can be fit to the first plug connector and which corresponds to the first plug connector. The first and second plug connectors each have a plug face which has a first sheet metal contact and a corresponding second sheet metal contact which can be fit together in an electrically contacting manner. The plug connectors further include first and second optical and/or electrical plug contacts which are fit together and which arranged with spacing from the first and second sheet metal contacts. A latching hook having a latching hook and latching arm is provided on the first plug connector and a corresponding latching recess having a latching edge is provided on the second plug connector. A hook portion (1 of the latching hook is connected to the latching arm via a bending line which deviates from a straight line and has a raised 3D shaped surface region with at least one open side.

A shielded in-line connector includes conductive first and second body portions, each with a securement feature, as well as conductive first and second clips. The first and second body portions are secured to one another to define an unshielded connector-receiving cavity as well as first and second shielded cable openings; each of the first and second shielded cable openings being proximate the respective clip securement feature. Each of the clip securement features includes a channel supportive of a respective shielded cable extending from each of the first and second shielded cable openings; each of the shielded cables having an exposed shield. The first and second clips are adjustably secured to a respective one of the first and second securement features to position the respective clip in direct contact with the exposed shield of the respective shielded cable.

The present invention relates to a communication arrangement configured to allow wired communication between an electronic host device and an electrical slave device, such as between a smart phone and a smart card during an enrollment process. The invention also relates to a method for providing instructions to a user of a smart card during an enrollment process.

The present invention relates to a communication arrangement configured to allow wired communication between an electronic host device and an electrical slave device, such as between a smart phone and a smart card during an enrollment process. The invention also relates to a method for providing instructions to a user of a smart card during an enrollment process.

An apparatus for maintaining cross-talk below a predetermined threshold is disclosed. The apparatus comprises cable mating zone for connecting each of a first set of contact pairs with a respective twisted pair of cable conductors, a device mating zone for connecting each of a second set of contact pairs with a respective pair of device contacts and an intermediate transmission zone for connecting each of the first set of contact pairs with a respective one of the second set of contact pairs. In each of the zones the cross talk noise is prevented from exceeding a predetermined cross talk noise threshold.

An apparatus for maintaining cross-talk below a predetermined threshold is disclosed. The apparatus comprises cable mating zone for connecting each of a first set of contact pairs with a respective twisted pair of cable conductors, a device mating zone for connecting each of a second set of contact pairs with a respective pair of device contacts and an intermediate transmission zone for connecting each of the first set of contact pairs with a respective one of the second set of contact pairs. In each of the zones the cross talk noise is prevented from exceeding a predetermined cross talk noise threshold.

A connector having favorable crosstalk characteristics and common conversion characteristics and high noise immunity is provided. The connector includes a first connector having at least one pair of first terminals disposed in one housing and a second connector that includes at least one pair of second terminals disposed in another housing, and configured to be connected to the one pair of first terminals. The connector includes at least one first terminal surrounding conductors fixed inside the one housing, individually surrounding the pairs of first terminals, and are insulated from other members, and at least one second terminal surrounding conductors are fixed inside the other housing, individually surrounding the pairs of second terminals, and are insulated from other members. When the first terminals are respectively connected to the second terminals, the first terminal surrounding conductors are respectively connected to the corresponding second terminal surrounding conductors as well.