Technology capable of reducing the number of tubular protective members in a wiring member is provided. The wiring member includes: multiple electric wires that branch into multiple branch lines from a main line at a branch position; a connection component provided at an end portion of a target branch line among the branch lines; and a resin molded body that includes a main body portion and an extending portion. The main body portion covers all of the electric wires at the branch position, and the extending portion extends from the main body portion and covers a portion of the target branch line that is between the main body portion and the connection component.

An electric cable assembly includes an electric cable having a cable jacket and one or more electrical wires extending through the cable jacket, the cable jacket defining one or more retention structures arranged at an outer surface of the cable jacket; and a sleeve adapted to connect to an electrical connector and surrounding the cable jacket in an area outside the electrical connector, the sleeve including one or more engagement structures engaged with the one or more retention structures, where the engagement of the one or more retention structures with the one or more engagement structures facilitates a retention of the sleeve with the cable jacket.

A furcated driveline connector configured to couple to an implantable blood pump.

An object of the present disclosure is to provide a technique for easily suppressing the intrusion of a resin into a cavity. A wiring member includes: a connector housing provided with a cavity; an electric wire in which one end portion is housed in the cavity and the other end portion extends outward from an opening portion of the cavity; a sealing component that is attached to the connector housing or the electric wire to at least partially close off a gap between the connector housing and the electric wire in the opening portion of the cavity; a resin molded part that covers a portion extending from a rear end portion of the connector housing to a position of an intermediate portion of the electric wire on the other end portion side relative to a portion provided with the sealing component.

Various embodiments include a connector head assembly for an electrical cable attached to one or more receptacle connectors. The connector head assembly may include an elongate overmold having a longitudinal extent that is longer than a height or width thereof. The elongate overmold may be configured to encase a terminal end of the electrical cable coupled to the one or more receptacle connectors inside the elongate overmold. The connector head assembly may also include a pull tab pivotally attached to the elongate overmold on an upper surface thereof. A pulling force applied to the pull tab may be configured to separate the receptacle connector from a receptacle in which the receptacle connector is configured to be held.

A multi-line electrical assembly that includes a multi-line cable (14), including a multiplicity of insulated conductive wires (59); and a multi-line electrical plug (16), physically connected to the cable. The plug has a housing (56) and a plurality of spaced-apart printed circuit hoards (PCBs, 48), housed in the housing and having a first end (47) that is connected to the cable and having a second end (46), separated from the first end. Further, the PCBs bear a plurality of conductive traces (50), at least some of the traces being electrically connected to the wires proximal to the first end. The traces terminate proximal to the second end.

Systems and methods for a coupler including: a cable comprising a bend relief disposed at an end of the cable and one or more wires; a socket comprising one or more pins and one or more socket terminals, where the one or more pins are electrically connected to the one or more socket terminals; and a housing body disposed between the cable and the socket, where the housing body comprises a portion of the bend relief and the one or more wires connected to the one or more socket terminals, and where at least a portion of the housing body is made of hot melt such that the housing body encapsulates the portion of the bend relief, the one or more socket terminals, and the one or more wires connected to the one or more socket terminals.

A connector comprises an inner structure and an outer molded body. The inner structure comprises an inner molded body, a fit portion and a projecting portion. The fit portion projects forward from the inner molded body and is mated with a mating fit portion of a mating connector when the connector is connected to the mating connector. The projecting portion projects from the fit portion or the inner molded body. At least a part of the projecting portion is located outward of the fit portion in the upper-lower direction. The outer molded body has a rear portion and a front portion. The rear portion covers the inner molded body in a perpendicular plane perpendicular to the front-rear direction. The front portion extends forward from the rear portion and partially covers the fit portion in the perpendicular plane. The projecting portion is, at least in part, embedded in the front portion.

The cable assembly includes a first wire assembly. The first wire assembly is connected to a first connector and a second connector. The first connector includes a shell and the shell includes an extension. The extension extends away from the rear of the connector. In one embodiment, the extension is integral with the shell. The extension includes 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 USB cable that includes a cable coupling element selected from a first connector, a printed circuit board, or a device, as well as a multi-port connector that includes a multi-port connector including a housing, at least two ports defined by the housing, at least two female USB connectors disposed within the housing, and at least two retention arms extending from the housing. The USB cable also includes conductors electrically coupling the first connector to the at least two female USB connectors and a jacket extending between the first connector and the multi-port connector, wherein the conductors are at least partially disposed within the jacket. In another USB cable, in addition to or as an alternative to the retention arms, each of the at least two female USB connectors is spaced at least 10 mm from the opening of the port through which the female USB connector is accessible.