A connector assembly for installation on a wall includes a main connector body introduced into a cut-out hole of the wall and a protective shell positioned on an inner side of the wall. The protective shell protects the main connector body from an insulation foam entering the main connector body when foamed in place. The protective shell has a front portion, a receptacle formed at the front portion and receiving a second end of the main connector body, a flange extending from and surrounding the receptacle, and a lead-through channel formed at a back portion of the protective shell. The flange is attached on the inner side of the wall and covers the cut-out hole. The lead-through channel has an internal flap routing a cable through the back portion in a meandering manner. The internal flap is inclined with respect to the lead-through channel.

A pluggable module includes a housing and cables arranged as a cable bundle extending from a module cavity of the housing. Each cable includes first and second conductors and an insulator surrounding the conductors. Each cable is obround shaped having generally flat first and second ends and semi-circular first and second sides between the first and second ends. The pluggable module includes a cable organizer coupled to the cable bundle to position the cables relative to each other. The cable organizer has cable channels receiving and holding the cables such that at least a first subset of the cables are oriented with the first and second ends non-parallel to the first and second ends of a second subset of the cables.

An information processing apparatus includes a recess formed on a bottom surface of a housing of the information processing apparatus; a connector provided in the recess; a hook being a pair of protrusions for winding and fixing the cable and provided in the recess; and an open space opening from the recess to a side surface of the housing. The protrusion has a winding portion protruding from a bottom surface of the recess, and a holding portion formed by bending and extending the winding portion. One protrusion in a first hook is arranged within a predetermined distance from the open space, and one protrusion in a second hook is arranged adjacent to the protrusion of the first hook. The protrusions of the first and second hooks are arranged so that the holding portions in the first and second hooks are alternately opposed to each other, and are partially overlapped.

An epicardial pacer wire management device can include a spool defining a recessed region that encompasses the spool. The recessed region can receive a portion of a pacer wire. The device can further include a connector attached to the spool, and the connector can be electrically coupled with an exposed tip of the pacer wire. The device can further include an electrical port attached to the spool that can communicate with a pacing control unit. The device may include an electrical communication line electrically coupled between the connector and the electrical port.

An information processing apparatus includes a recess formed on a bottom surface of a housing of the information processing apparatus; a connector provided in the recess; a hook being a pair of protrusions for winding and fixing the cable and provided in the recess; and an open space opening from the recess to a side surface of the housing. The protrusion has a winding portion protruding from a bottom surface of the recess, and a holding portion formed by bending and extending the winding portion. One protrusion in a first hook is arranged within a predetermined distance from the open space, and one protrusion in a second hook is arranged adjacent to the protrusion of the first hook. The protrusions of the first and second hooks are arranged so that the holding portions in the first and second hooks are alternately opposed to each other, and are partially overlapped.

An epicardial pacer wire management device can include a spool defining a recessed region that encompasses the spool. The recessed region can receive a portion of a pacer wire. The device can further include a connector attached to the spool, and the connector can be electrically coupled with an exposed tip of the pacer wire. The device can further include an electrical port attached to the spool that can communicate with a pacing control unit. The device may include an electrical communication line electrically coupled between the connector and the electrical port.

A cable connector assembly for an electrical device, which includes a cable connector having a pressing-member receiver, the pressing-member receiver including an electrically-conductive contact or a receiver for an electrically-conductive contact and an opposed wall portion. A cable having a cable terminal which is positionable on the cable connector in contact with the electrically-conductive contact is provided as well. A pressing member, such as a spring element, is provided which is insertable into the pressing-member receiver to contact the wall portion and the cable terminal, the pressing member holding the cable terminal against the electrically-conductive contact.

A method for manufacturing a cable with a connector is provided. In the method, a contact is attached to a reinforcing wire. The reinforcing wire to which the contact is attached is inserted into an insertion portion of a housing. The housing is connected to one end of a cable. The reinforcing wire is secured to the cable by a securing member.

The cable assembly may include a first wire assembly. The first wire assembly may be connected to a first connector and a second connector. The first connector may include a shell and the shell may include an extension. The extension may extend away from the rear of the connector. In one embodiment, the extension may be integral with the shell. The extension may include one or more openings. The first wire assembly is bent in a controlled manner at first bend. The first opening in the extension maintains the first wire assembly in the bent position to maintain control of the radius in first bend. The radius is controlled to allow the first wire assembly to fit in a small space.

A connector includes multiple first terminals, multiple second terminals, and a housing that holds the terminals. The first terminals are arranged side-by-side in a width direction of the housing, and the second terminals are also arranged side-by-side in the width direction. In the housing, the first terminals are arranged side-by-side with the second terminals in a front-rear direction that is perpendicular to the width direction. In a state where first electrical wires are connected to the first terminals and second electrical wires are connected to the second terminals, the first electrical wires are drawn out to one side in the front-rear direction of the housing, and the second electrical wires are drawn out to the other side in the front-rear direction of the housing.