A battery distribution unit (BDU) for holding a first electronic device having a first blade terminal extending therefrom and a second electronic device having a second blade terminal extending therefrom includes a BDU housing, a strip busbar received in the BDU housing, and first and second cross terminals received in the BDU housing. The first cross terminal receives the strip busbar at a first end thereof and is configured to receive the first blade terminal at a second end thereof. The second cross terminal receives the strip busbar at a first end thereof and is configured to receive the second blade terminal at a second end thereof.

A terminal fitting includes a fastening portion and a wire connection portion. The fastening portion is formed with an installation insertion hole through which a fixing member is inserted. The wire connection portion extends from a peripheral edge portion of the fastening portion. A notch is provided in the fastening portion so as to extend along the peripheral edge of an opening of the installation insertion hole and between the installation insertion hole and the wire connection portion. A through hole or a thin recessed portion is formed on the notch at an intersection portion between the notch and an axis in an extending direction of the wire connection portion.

An electrical connector is disclosed. The electrical connector has a first body and a second body. The second body is mechanically coupled to the first body in a coupling state and enters the coupling state through a lateral side of the first body.

A terminal for electrically connecting at least one conductor comprises an insulating material housing, a contact body with a contact frame and a contact spring, and an operating element. The operating element has a bearing region for rotatably mounting the operating element in the insulating material housing about a rotation axis, and at least one operating structure, which is at a radial distance from the bearing region and extends in the direction of the rotation axis, for moving the clamping limb between the conductor clamping position and the conductor release position in the event of a rotational movement of the operating element about its rotation axis. The insulating material housing has a supporting region which axially extends between the rotation axis and the operating structure to support the operating structure on the supporting region at least in the conductor release position.

The present invention provides an apparatus for a threaded plumbing connector to electrically ground pipes. The apparatus includes wire terminal block(s), connecting the threaded plumbing connector body to a wire or other conductive material. In the event that a pipe becomes electrically energized, the grounding connection of the threaded plumbing connector would be able to shunt the electrical current away from the pipes and reduce the risk of fire.

To realize an insulating busbar that has both low inductance and high withstand voltage, provided is an insulating busbar that connects to a module on which is mounted a semiconductor chip, including a plurality of circuit conductors; a plurality of connection terminals that respectively electrically connect the circuit conductors to the module; and an insulating resin portion that is formed integrally between each of the circuit conductors and at least a portion of a region around each connection terminal and does not have any gaps between the circuit semiconductors.

A connection method for a terminal fitting, in which the terminal fitting includes a terminal body and a plurality of terminal connection portions extending from the terminal body, and a pair of fastening caulking pieces of each of connection terminals connected to end portions of electric wires are caulked and connected to a pair of fastened caulking pieces formed in a corresponding one of the terminal connection portions, the connection method includes folding open end portions of the fastened caulking pieces inward respectively to form folded portions and a space between the folded portions so that open end portions of the pair of fastening caulking portions enter the space, and crushing the pair of the fastening caulking pieces to caulk the pair of the fastened caulking pieces so that the open end portions of the pair of the fastening caulking pieces enter the space.

An electrical connector assembly and its manufacturing method are described, wherein the electrical connector assembly includes a bridging conductive component. The multiple conductive terminals achieve electrical connection through the bridging conductive component without the use of jumper wires, meeting the requirements for signal transmission in the electrical connector assembly. The manufacturing method of the electrical connector assembly involves the step of combining multiple electrical connector components with the bridging conductive component. Thus, during the assembly of the electrical connector assembly, customization of the electrical connection relationship of conductive terminals can be achieved by adjusting multiple electrical connector components and the bridging conductive component. This customization ensures compliance with the requirements for signal transmission in the electrical connector assembly, meeting the specific needs and developments of electronic devices.

An electrical connector assembly and its manufacturing method are described, wherein the electrical connector assembly includes a bridging conductive component. The multiple conductive terminals achieve electrical connection through the bridging conductive component without the use of jumper wires, meeting the requirements for signal transmission in the electrical connector assembly. The manufacturing method of the electrical connector assembly involves the step of combining multiple electrical connector components with the bridging conductive component. Thus, during the assembly of the electrical connector assembly, customization of the electrical connection relationship of conductive terminals can be achieved by adjusting multiple electrical connector components and the bridging conductive component. This customization ensures compliance with the requirements for signal transmission in the electrical connector assembly, meeting the specific needs and developments of electronic devices.

A connection device for conductors has one or more single conductor terminals which are formed as direct plug connections. Each conductor terminal has a metal contact element such as a metal clamping cage, a spring support made of a non-conductive material such as plastic, and a clamping spring. Each of the spring supports is placed on at least one corresponding receiving element made of a non-conductive material.