A connector structure enables replacement of an STP cable (10B) and a UTP cable (10A) without a large structural change. UTP connection terminals (21A) connected to respective wires (11) of the UTP cable (10A) are accommodated in accommodating portions (26) of a UTP dielectric (22A) such that insertion areas (53) for male terminals (91) are close to each other in a width direction. STP connection terminals (21B) connected to respective wires (11) of the STP cable (10B) are accommodated in accommodating portions (26) of an STP dielectric (22B) such that insertion areas (53) for male terminals (91) are farther apart in the width direction than in the case of the UTP connection terminals (21A). The UTP connection terminals and the STP connection terminals that are accommodated in the accommodating portions (26) have protrusions (34) that are oriented in the same direction when.

A connector structure enables replacement of an STP cable (10B) and a UTP cable (10A) without a large structural change. UTP connection terminals (21A) connected to respective wires (11) of the UTP cable (10A) are accommodated in accommodating portions (26) of a UTP dielectric (22A) such that insertion areas (53) for male terminals (91) are close to each other in a width direction. STP connection terminals (21B) connected to respective wires (11) of the STP cable (10B) are accommodated in accommodating portions (26) of an STP dielectric (22B) such that insertion areas (53) for male terminals (91) are farther apart in the width direction than in the case of the UTP connection terminals (21A). The UTP connection terminals and the STP connection terminals that are accommodated in the accommodating portions (26) have protrusions (34) that are oriented in the same direction when.

A connector includes an outer housing, an inner housing housed and held in the outer housing, a jacket fixing member attached to an outer periphery of the inner housing, a plurality of terminals housed in the inner housing, a plurality of cables with each end connected to each of the plurality of terminals and drawn from the inner housing, a jacket collectively covering an outer periphery of the plurality of cables drawn from the inner housing, a crimping section formed on the jacket fixing member and crimped to an outer periphery of the jacket, and at least one serration formed on the crimping section, protruding toward the jacket, and arranged inclined with respect to a longitudinal direction of the jacket.

A closure (100) facilitates upgrading a network to extend optical fibers closer to, or all the way to, the subscribers by facilitating the transition between optical signals to electrical signals. The closure includes a base (110) and a cover (120) defining an interior; and a circuit board (130) disposed within the interior. A management tray (140) can be coupled to the base. The circuit board (130) includes the optoelectronic circuitry. The management tray (140) includes a platform (141) disposed between the circuit board (130) and the cover (120). Various types of fiber and electrical cable sub-assemblies (160) can be received at a port (113) defined in the closure.

A closure (100) facilitates upgrading a network to extend optical fibers closer to, or all the way to, the subscribers by facilitating the transition between optical signals to electrical signals. The closure includes a base (110) and a cover (120) defining an interior; and a circuit board (130) disposed within the interior. A management tray (140) can be coupled to the base. The circuit board (130) includes the optoelectronic circuitry. The management tray (140) includes a platform (141) disposed between the circuit board (130) and the cover (120). Various types of fiber and electrical cable sub-assemblies (160) can be received at a port (113) defined in the closure.

A modular plug is disclosed as having a housing, a wire manager, a load bar, and a rear component each configured to snap-fit together to assemble the modular plug. The wire manager has a plurality of channels axially positioned about a central axis, each channel being configured to receive a twisted pair of wires from a telecommunications cable, and each channel having a first width and a gate having a second width smaller than the first width.

A modular plug is disclosed as having a housing, a wire manager, a load bar, and a rear component each configured to snap-fit together to assemble the modular plug. The wire manager has a plurality of channels axially positioned about a central axis, each channel being configured to receive a twisted pair of wires from a telecommunications cable, and each channel having a first width and a gate having a second width smaller than the first width.

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.

A connector, to which an end portion of a cable including a plurality of core wires is to be connected, comprises a housing including an arrangement surface section defining an arrangement space in which the cable is arranged through an opening, and an engagement member arranged in the arrangement space to hold the cable in the arrangement space together with the housing. The housing includes a first engagement portion for locking the cable by being displaced upward to project into the arrangement space, thereby pressing an outer surface of the cable arranged in the arrangement space. The engagement member includes a pair of second engagement portions arranged opposite to each other in a left-to-right direction through contact with the arrangement surface section, when the engagement member is arranged in the arrangement space, so as to lock the cable by pressing and sandwiching the outer surface of the cable.