An insulation displacement arms. The insulation displacement arms define a conductor or wire receiving slot. The insulation displacement arms have insulation stripping sections, weakened sections and base sections. The weakened sections have weakened section widths which are less than insulation stripping section widths of the insulation stripping sections and less than base section widths of the base section. The weakened sections are resiliently deformed upon one or more insulated conductors engaging the insulation stripping sections of the insulation displacement arms as the one or more insulated conductors are inserted into the insulation stripping zone of the wire receiving slot, allowing the insulation displacement contact to accommodate the one or more insulated conductors of the same type and gauge chosen from a broad range of gauges.

A modular connector includes a connector body and a locking part. The connector body has a surface. The locking part includes a connection portion and a retaining portion connected to the connection portion. The connection portion is rotatably connected to the surface relative to a direction. The direction is perpendicular to the surface. The locking part is rotatable to engage with a retaining structure of a mating modular connector.

A modular connector includes a connector body and a locking part. The connector body has a surface. The locking part includes a connection portion and a retaining portion connected to the connection portion. The connection portion is rotatably connected to the surface relative to a direction. The direction is perpendicular to the surface. The locking part is rotatable to engage with a retaining structure of a mating modular connector.

A connector and a package body that can be transported without exposing a filler to the outside and can stably deliver predetermined performance during use are provided. A connector (10) comprises: a pair of a first fitting object (16) and a second fitting object (30); a first opening (29) and a second opening (44) formed respectively in the first fitting object (16) and the second fitting object (30) and opened to a fitting side; and a filler (70) provided inside at least one fitting object of the first fitting object (16) and the second fitting object (30), wherein, before the first fitting object (16) and the second fitting object (30) are fitted together, the filler (70) is located inside of an opening of a corresponding fitting object, and an end surface of the second fitting object (30) on the fitting side forms a plane.

A connector and a package body that can be transported without exposing a filler to the outside and can stably deliver predetermined performance during use are provided. A connector (10) comprises: a pair of a first fitting object (16) and a second fitting object (30); a first opening (29) and a second opening (44) formed respectively in the first fitting object (16) and the second fitting object (30) and opened to a fitting side; and a filler (70) provided inside at least one fitting object of the first fitting object (16) and the second fitting object (30), wherein, before the first fitting object (16) and the second fitting object (30) are fitted together, the filler (70) is located inside of an opening of a corresponding fitting object, and an end surface of the second fitting object (30) on the fitting side forms a plane.

A self-enclosed electrical assembly with a wire crimping structure, including an installation faceplate, a front assembly, and a back assembly affixed to each other using buckles. The front assembly includes a base plate and an open-top enclosure member extending perpendicularly from the base plate. Disposed inside the enclosure member are plug insertion pieces with wire receiving slots. The back assembly includes a top panel and a shell body extending perpendicularly from the top panel. Disposed within the shell body is a wire crimping structure, which includes a wire crimping block and an inserted member. The wire crimping block has multiple wire crimping notches respectively spatially corresponding to the wire receiving slots. After the back assembly and the front assembly are affixed to each other, the inserted member is used to press the crimping block to crimp the wires into the wire receiving slots.

A connector is disclosed comprising at least one contact clip. The contact clip comprises an electrically conductive substrate having a longitudinal axis, a first terminal located at a first end of the substrate, wherein the first terminal comprises at least two contact tongues between which a longitudinal slot is formed, which contact tongues are elastically deformable with respect to each other in a first direction which is perpendicular to the longitudinal axis, and a second terminal located at a second end of the substrate. The connector may further comprise a chassis and a PCB. In addition, a device comprising an energy consumer, an electrical energy source, a PCB and at least one connector is disclosed.

A connector is disclosed comprising at least one contact clip. The contact clip comprises an electrically conductive substrate having a longitudinal axis, a first terminal located at a first end of the substrate, wherein the first terminal comprises at least two contact tongues between which a longitudinal slot is formed, which contact tongues are elastically deformable with respect to each other in a first direction which is perpendicular to the longitudinal axis, and a second terminal located at a second end of the substrate. The connector may further comprise a chassis and a PCB. In addition, a device comprising an energy consumer, an electrical energy source, a PCB and at least one connector is disclosed.

An inline cable connector assembly connects one or more twisted pairs of wire leads of a first cable to one or more twisted pairs of wire leads to a second cable. The assembly includes first and second terminal housing parts, first and second wiring caps, and double ended insulation displacement contacts within the connector assembly.

An inline cable connector assembly connects one or more twisted pairs of wire leads of a first cable to one or more twisted pairs of wire leads to a second cable. The assembly includes first and second terminal housing parts, first and second wiring caps, and double ended insulation displacement contacts within the connector assembly.