A current bar adapter for electrically connecting at least one plug-in module to at least one current bar and/or contact bar of an insert part which is inserted into a mounting rail, a number of current bars and/or contact bars that extend in a longitudinal direction of the mounting rail being arranged in the insert part, the current bar adapter including: a clamping device for snapping the current bar adapter onto the mounting rail; at least one interface for contacting the at least one plug-in module; and at least one contact element for contacting the at least one current bar and/or contact bar and establishing an electrical connection between the current bar and/or contact bar and the at least one plug-in module.

An electrical distribution block includes a first base, a second base, and a spacer plate discrete from the first and second base. The spacer plate is positioned between first base and the second base and secures the first base to the second base. A conductor block is connected to at least one of the first base or the second base. The conductor block includes a primary tap and a secondary tap.

A wiring module includes a first housing section row, a second housing section row, and linking sections. The first housing section row includes first housing sections that are arranged in an arrangement direction and include connection bus bars therein, respectively. The second housing section row includes second housing sections that are arranged in the arrangement direction and include the connection bus bars and output bus bars therein, respectively, and is disposed away from the first housing section row with respect to a crossing direction that crosses the arrangement direction. The linking sections are disposed between the first and second housing section rows and link the first and second housing section rows. The first housing sections are connected by a first warping section that can be deformed with warping and the second housing sections are connected by a second warping section that can be deformed with warping.

A wiring module includes a first housing section row, a second housing section row, and linking sections. The first housing section row includes first housing sections that are arranged in an arrangement direction and include connection bus bars therein, respectively. The second housing section row includes second housing sections that are arranged in the arrangement direction and include the connection bus bars and output bus bars therein, respectively, and is disposed away from the first housing section row with respect to a crossing direction that crosses the arrangement direction. The linking sections are disposed between the first and second housing section rows and link the first and second housing section rows. The first housing sections are connected by a first warping section that can be deformed with warping and the second housing sections are connected by a second warping section that can be deformed with warping.

An apparatus and method for splicing single pair ethernet (SPE) cables. By creating a T shaped intersection, the splicing device allows for sensors and other devices to run perpendicular in relation to the original cable. The splicing device further enables the cable to have multiple drop points along the cable.

An electrical connector includes an insulating housing and a plurality of electrical terminals. A first side surface of the connector has a plug input interface provided for insertion of a power supply component along a first direction and a length direction thereof is perpendicular to the first direction. A third side surface of the connector has a shunt socket with at least one shunt slot. Each of the electrical terminals has an A contact portion, a B contact portion, a middle portion and a pin portion. Each of the A contact portions extends into the plug input interface along the first direction. Each of the pin portions extends out of the second side surface along a second direction perpendicular to the first direction. Each of the B contact portions extends into the shunt slot along a third direction perpendicular to the first direction.

An apparatus and method for splicing single pair ethernet (SPE) cables. By creating a T shaped intersection, the splicing device allows for sensors and other devices to run perpendicular in relation to the original cable. The splicing device further enables the cable to have multiple drop points along the cable.

The present invention relates to an electrical conductor connector, comprises: an insulating body, a contact member and an actuation lever. A plurality of inserting openings are provided in the insulating body. The contact member comprises a busbar and a wire connection clamp. The actuation lever comprises an actuation portion for cooperating with the wire connection clamp and a flip portion, wherein the actuation portion is provided with a cam, a stop wall is provided inside the insulating body for contacting the cam. When the flip portion is flipped, the actuation lever swings and moves jointly through the contour of the cam and a contact surface of the stop wall, so a relative displacement is generated between the insulating body and the actuation lever. A contact point is generated between the surface of wire connection clamp and the actuation portion, and the position of the contact point will be changed continuously.

The present invention relates to an electrical conductor connector, comprises: an insulating body, a contact member and an actuation lever. A plurality of inserting openings are provided in the insulating body. The contact member comprises a busbar and a wire connection clamp. The actuation lever comprises an actuation portion for cooperating with the wire connection clamp and a flip portion, wherein the actuation portion is provided with a cam, a stop wall is provided inside the insulating body for contacting the cam. When the flip portion is flipped, the actuation lever swings and moves jointly through the contour of the cam and a contact surface of the stop wall, so a relative displacement is generated between the insulating body and the actuation lever. A contact point is generated between the surface of wire connection clamp and the actuation portion, and the position of the contact point will be changed continuously.

A bus bar assembly includes a nonconductive terminal cap that is configured to secure to an electrically conductive terminal via an attachment feature. The terminal cap has a slot that is configured to expose a terminal portion of the terminal when in an assembled condition. A bus bar has an end that is configured to be received in and extend through the slot when in the assembled condition in which the end is in electrical contact with the terminal portion of the terminal. A nonconductive shroud encloses the bus bar.