An electrical cable connector includes a contact subassembly having a center contact, a dielectric holder, and an outer contact. The dielectric holder defines a channel that is open at a top side of the dielectric holder. The center contact has a termination region that is held in the channel. The termination region includes a first cable insulation displacement (CID) feature. The outer contact includes a second CID feature extending from a base wall of the outer contact outside of the dielectric holder. The second CID feature extends into the channel through an aperture in the dielectric holder. The first CID feature engages a core conductor of a cable and the second CID feature engages a shield layer of the cable as the cable is loaded into the channel from above the top side of the dielectric holder.

An insulation displacement contact device comprises a blade assembly and a biasing element. The blade assembly has a plurality of blades disposed opposite one another each with a cutting edge. The cutting edges of the blades terminate into a contact slot disposed between the blades. The blade assembly is disposed in the biasing element. The biasing element is movable with respect to the blade assembly along a moving direction parallel to the contact slot.

An insulation displacement contact includes a monolithic electrically conductive contact body that includes mating portion and a mounting portion. A plurality of the insulation displacement contacts are configured to be delivered to a substrate by a connector housing. The mating portion defines a pair of insulation displacement slots configured to receive an electrical cable so as to place the electrical cable in electrical communication with the substrate through the insulation displacement contact.

A wire connector for connecting and maintaining a branch wire connected to a main uncut wire during handling of the wire connector and without cutting the main wire by laterally inserting the main uncut wire into a laterally open wire port in a piston sleeve and extending a cut end of a branch wire through an offset wire guide on the exterior of the wire connector and then reversing the branch wire direction to form a slack loop in the branch wire before inserting the end of the branch wire into a further wire port in the piston sleeve.

An electrical connector includes: an insulative housing having a base portion and a tongue portion; plural contacts affixed to the insulative housing and exposed to the tongue portion; a shielding shell enclosing the insulative housing and having a front end; an outer cover enclosing the shielding shell and having a front protrusion; and a front sealer having a front main body, a rear securing portion, and a pair of connecting portions connected between the front main body and the rear securing portion; wherein a groove is defined between the front end of the shielding shell and the front protrusion of the outer cover; and the front main body is disposed in the groove and the rear securing portion is disposed behind the front protrusion of the outer cover.

A terminal includes a terminal body extending between a mating end and a terminating end. The mating end has a mating interface. The terminating end has an insulation displacement contact. The insulation displacement contact includes a first contact element having a first blade and a second contact element having a second blade. The first blade faces the second blade across a cable slot configured to receive a cable. The terminal includes a contact support extending along the insulation displacement contact. The contact support holds the first contact element relative to the second contact element.

A terminal includes a terminal body extending between a mating end and a terminating end. The mating end has a mating interface. The terminating end has an insulation displacement contact. The insulation displacement contact includes a first contact element having a first blade and a second contact element having a second blade. The first blade faces the second blade across a cable slot configured to receive a cable. The terminal includes a contact support extending along the insulation displacement contact. The contact support holds the first contact element relative to the second contact element.

An insulation displacement contact comprises an electrically conductive contact body including a mounting portion that is configured to receive a complementary electrical component so as to contact an electrical terminal of the complementary electrical component, and a mating portion configured to attach to an electrical cable, the mating portion including a slot that extends into the contact body, and at least one piercing member that at least partially defines the slot such that, when the slot receives an electrical cable, the piercing member pierces an outer electrically insulative layer of the electrical cable and contacts an electrical conductor of the electrical cable that is disposed inside the electrically insulative layer.

A connector structure (100) for a flexible light strip (10) includes a cable joint (110) and an insulation body (200). The cable joint (110) includes a housing (120) and a plurality of conductive terminals (130) assembled in the housing (120). Each of the conductive terminals (130) includes a piercing portion (150). The insulation body (200) has a first end (210) and a second end (220) communicating with the first end (210). The flexible light strip (10) is inserted into the first end (210), and the housing (120) is inserted into the second end (220). The piercing portion (150) is parallel to the flexible light strip (10) and correspondingly pierces the flexible light trip (10) to be electrically coupled to the same. Therefore, the connector structure (100) achieves fast assembly and improves efficiency and reliability for connection.

A mains power wire connection assembly (100) using a button to push a first wire and a second wire to move toward the direction of clamping slots, and the inner walls of the clamping slots puncture the first wire and second wires and clamp the same. The button and the insulation body are locked and fixed with respect to each other.