The present disclosure relates to a coaxial connector assembly comprising a first connector and a second connector adapted to be connected with each other, and a locking mechanism adapted to lock and unlock a connection between the first connector and the second connector. The locking mechanism includes a first locking member having at least one elastic snap-fit element and a second locking member having a locking element adapted to be snap-fitly engaged with the at least one elastic snap-fit element. The first locking member is disposed on an outer periphery of the first connector, and the second locking member is disposed on an outer periphery of the second connector. The elastic snap-fit element is constructed as a cantilever that extends axially toward a direction remote from the second connector, so that it is movable between an unlocking position and a locking position along a radial direction. In the unlocking position, the elastic snap-fit element is pressed down, so that the elastic snap-fit element is disengaged from the locking element, and in the locking position, the elastic snap-fit element springs back to its initial state, so that the elastic snap-fit element is snap-fitly engaged with the lock element.

In accordance with some aspects of the disclosure, a modular telecommunications patch panel system is shown and described. The panel can include a mounting frame extending between a first end and a second end, the mounting frame defining a plurality of apertures for receiving telecommunications components, a first mounting ear forming a snap-fit connection with the mounting frame first end, in a first orientation, and a second mounting ear, identical to the first mounting ear, forming a snap-fit connection with the mounting frame second end, in a second orientation.

In accordance with some aspects of the disclosure, a modular telecommunications patch panel system is shown and described. The panel can include a mounting frame extending between a first end and a second end, the mounting frame defining a plurality of apertures for receiving telecommunications components, a first mounting ear forming a snap-fit connection with the mounting frame first end, in a first orientation, and a second mounting ear, identical to the first mounting ear, forming a snap-fit connection with the mounting frame second end, in a second orientation.

A wire harness includes a connector and a grommet. The connector includes an inner member having an annular plate-shaped flange. The inner member includes a first divided inner part, a second divided inner part, a deformable hinge that connects one end of the first divided inner part and one end of the second divided inner part to each other, and a lock portion that is formed on a fitting portion between the other end of the first divided inner part and the other end of the second divided inner part. The lock portion is formed on a portion where the other end of the first divided inner part and the other end of the second divided inner part are fitted to each other by sliding movement in accordance with a twisting of the hinge about a first axis.

A wire harness includes a connector and a grommet. The connector includes an inner member having an annular plate-shaped flange. The inner member includes a first divided inner part, a second divided inner part, a deformable hinge that connects one end of the first divided inner part and one end of the second divided inner part to each other, and a lock portion that is formed on a fitting portion between the other end of the first divided inner part and the other end of the second divided inner part. The lock portion is formed on a portion where the other end of the first divided inner part and the other end of the second divided inner part are fitted to each other by sliding movement in accordance with a twisting of the hinge about a first axis.

In a connector, movement of a contact is appropriately restricted in detaching a counter connector from the connector. The connector fittable with the counter connector in a first direction includes the contact and a housing. The contact includes: a press-fitted portion press-fitted into the housing in a second direction intersecting the first direction; an extension portion that extends from the press-fitted portion in a third direction intersecting the first and the second directions; and a contact portion that extends from the extension portion and contacts the counter contact. The housing includes a protrusion portion that protrudes from a rising portion in the third direction. In a state where the press-fitted portion is press-fitted in the housing, a surface of a distal end portion in the third direction of the extension portion contacts the protrusion portion, which surface faces a side where the counter connector is situated.

In a connector, movement of a contact is appropriately restricted in detaching a counter connector from the connector. The connector fittable with the counter connector in a first direction includes the contact and a housing. The contact includes: a press-fitted portion press-fitted into the housing in a second direction intersecting the first direction; an extension portion that extends from the press-fitted portion in a third direction intersecting the first and the second directions; and a contact portion that extends from the extension portion and contacts the counter contact. The housing includes a protrusion portion that protrudes from a rising portion in the third direction. In a state where the press-fitted portion is press-fitted in the housing, a surface of a distal end portion in the third direction of the extension portion contacts the protrusion portion, which surface faces a side where the counter connector is situated.

A plug connector module for modular plug connectors produces a connection to a circuit board. The plug connector module includes a housing for receiving at least one insulating element, which is provided for receiving at least one data contact pair. The data contact pair consists of a conductor and a contact element. The housing has at least one recess which is shaped to be engaged with a connection element, whereby the plug connector module is connected to other system-related modules. The plug connector module houses at least two data contact pairs which are provided to transmit data. The data contact pairs are at least substantially secured against interfering influences by a respective shielding element.

A plug connector module for modular plug connectors produces a connection to a circuit board. The plug connector module includes a housing for receiving at least one insulating element, which is provided for receiving at least one data contact pair. The data contact pair consists of a conductor and a contact element. The housing has at least one recess which is shaped to be engaged with a connection element, whereby the plug connector module is connected to other system-related modules. The plug connector module houses at least two data contact pairs which are provided to transmit data. The data contact pairs are at least substantially secured against interfering influences by a respective shielding element.

Electrical connectors for very high speed signals, including signals at or above 112 Gbps. Effectiveness of shielding along the signal paths through the mating electrical connectors may be enhanced through the use of one or more techniques, including enabling two-sided shielding, connections between shield members and between shield members and grounded structures of printed circuit boards to which the connectors are mounted, and selective positioning of lossy material. Such techniques may be simply and reliably implemented in high density connector using one or more techniques. An electrical connector may include core members held by a housing together with leadframe assemblies attached to the core members. The core members may include features that would be difficult to mold in a housing and may include both shields and lossy materials in locations that would be difficult to incorporate in a leadframe assembly.