The invention is an implantable electrical connection between an electrical implant which has at least one electrical conductor and at least one electrical feed line. The invention further relates to a method for producing an implantable electrical connection between an electrical implant. The invention comprises at least one electrical cable having a cable end, to which an electrically conductive flat piece is unsupportedly fined, and that the at least one implant-side electrical conductor is joined to the flat piece.

The invention is an implantable electrical connection between an electrical implant which has at least one electrical conductor and at least one electrical feed line. The invention further relates to a method for producing an implantable electrical connection between an electrical implant. The invention comprises at least one electrical cable having a cable end, to which an electrically conductive flat piece is unsupportedly fined, and that the at least one implant-side electrical conductor is joined to the flat piece.

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.

A cable connector including a housing with a main body having a front face opposite a rear face and pin holes formed through the main body extending between the front face and the rear face, a first arm and second arm extending from the main body distal from the rear face; a cover removably coupled to the front face, the cover including receivers configured to align with the pin holes to receive either a pin or a socket connected at a terminal end of a wire; fasteners removably coupled to the cover and the housing; at least one guide post extending from an outer surface of the cover; a collar supported between the first arm and the second arm; and a predetermined pattern of the wire coupled to at least one of the pin and the socket, wherein either the pin or the socket are insertable in the pin hole.

The present disclosure aims to provide a connector capable of suppressing an increase in the number of components. A retainer 50 includes a body portion 51 having a plurality of through holes through which a plurality of wires 20 are individually passed, and a plurality of holding portions 53 projecting from the body portion 51 to individually hold the plurality of wires 20. Each of the plurality of holding portions 53 includes a resilient piece 54 resiliently deformable in a second direction intersecting a first direction in which the holding portion 53 projects. A supporting member 60 is collectively mounted on outer peripheral surfaces of the plurality of holding portions 53. The supporting member 60 presses the resilient pieces 54 against outer peripheral surfaces of the wires 20.

The present disclosure aims to provide a connector capable of suppressing an increase in the number of components. A retainer 50 includes a body portion 51 having a plurality of through holes 53 through which a plurality of wires 20 are individually passed, and a plurality of holding portions 53 projecting from the body portion 51 to individually hold the plurality of wires 20. Each of the plurality of holding portions 53 includes a resilient piece 54 resiliently deformable in a second direction intersecting a first direction in which the holding portion 53 projects. A plurality of supporting members 60 are individually mounted on outer peripheral surfaces of the plurality of holding portions 53. The supporting member 60 presses the resilient piece 54 against an outer peripheral surface of the wire 20.

A strain relief facility for a coaxial cable that is connectable to an electronics unit via an associated plug, includes two half-shells forming a receiver for the coaxial cable and the associated plug, and a fastening facility to fasten the strain relief facility to the electronics unit, and to fasten the half-shells to one another. The receiver has at least one cable section to receive the coaxial cable and a plug section to receive the plug.

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 backshell assembly includes a module hood sealable against a connection port having a first connector, a harness hood configured to house a second connector mateable with the first connector, a backshell configured to provide strain relief to a wire harness extending from the second connector and securable on the harness hood after the second connector is housed within the harness hood, and a latch assembly having a latch handle moveable from a first position into a second position to move the harness hood into sealing engagement with the module hood.

Electrical connectors for automatic swimming pool cleaners (APCs) are described. The connectors may be positioned on, at, in, or near bodies of the APCs and configured to be submerged in water of swimming pools. They additionally may be designed to withstand mechanical pulling stresses when their associated electrical cables are pulled by users to remove APCs from the pools. If such a connector is separable, essentially the entirety of the electrical cable may be separated from the APC for purposes of untangling or storing the cable, as examples. The separation additionally may allow for insertion of one or more extension cables as needed or desired.