A ground connection structure is a structure for collectively connecting, to a body of a vehicle, a plurality of grounding wires which are connected to respective electrical components installed in the vehicle. The ground connection structure includes: a connection box to which the plurality of grounding wires are connected; a grounding terminal part connected to the vehicle in an electrically conducting state; and an electrically conducting connection part having one end connected to the connection box and the other end connected to the grounding terminal part, the electrically conducting connection part connecting the connection box and the grounding terminal part in an electrically conducting manner. The electrically conducting connection part is made of a low-inductance material having low inductance.

The present disclosure pertains to a line connector for permanently connecting two or more electrical lines, with at least one metallic receiving sleeve which partially accommodates one of the lines, which exhibits at least a first through-opening as well as a second through-opening for introducing a welding tool or for introducing the lines, and at least a second compression section located between the through-openings, in which the receiving sleeve can be radially compressed. Furthermore, the present disclosure pertains to an electrical line assembly as well as a process for connecting two or more electrical lines.

The technology relates to an electric current conducting assembly, more specifically with the incorporation of a dead end shoe.

A subsea cable system (10) for transfer of electric power to a subsea device is disclosed where the subsea cable system comprises a subsea cable (11) with a first end portion (26) and a second end portion (27). The first end portion (26) is adapted for connection to a supply of electrical energy. The subsea cable (11) comprises at least a first supply cable (21), a second supply cable (22) and at least one return cable (24, 25) where the first supply cable (21), the second supply cable (22) and the at least one return cable (24, 25) each comprises a conductor element (101, 102, 103, 104) for conduction of an electric current. The subsea cable system (10) further comprises a conductor transition element (66) comprising a conductor element (67) that is provided with at least a first conductor leg (73), a second conductor leg (74) and a third conductor leg (75). The first conductor leg (73) is connected to the conductor element (101) of the first supply cable (21), the second conductor leg (74) is connected to the conductor element (102) of the second supply cable (22) and the third conductor leg (75) is connected to conductor element (56) of an end supply cable (53) that is connectable to a consumer device (46). A method for supplying electrical power to a subsea consumer device of electricity is also disclosed.

A subsea cable system (10) for transfer of electric power to a subsea device is disclosed where the subsea cable system comprises a subsea cable (11) with a first end portion (26) and a second end portion (27). The first end portion (26) is adapted for connection to a supply of electrical energy. The subsea cable (11) comprises at least a first supply cable (21), a second supply cable (22) and at least one return cable (24, 25) where the first supply cable (21), the second supply cable (22) and the at least one return cable (24, 25) each comprises a conductor element (101, 102, 103, 104) for conduction of an electric current. The subsea cable system (10) further comprises a conductor transition element (66) comprising a conductor element (67) that is provided with at least a first conductor leg (73), a second conductor leg (74) and a third conductor leg (75). The first conductor leg (73) is connected to the conductor element (101) of the first supply cable (21), the second conductor leg (74) is connected to the conductor element (102) of the second supply cable (22) and the third conductor leg (75) is connected to conductor element (56) of an end supply cable (53) that is connectable to a consumer device (46). A method for supplying electrical power to a subsea consumer device of electricity is also disclosed.

A busbar includes a plate-shaped body section and a wire connection section extended from the body section. The body section includes a first plate section, a second plate section, and a folding-back section connecting the first plate section and the second plate section. The first plate section and the second plate section are stacked mutually by folding-back the folding-back section. The first plate section has an outer shape that is positioned to a busbar accommodation section of a wire routing member made of insulation resin. A maximum width dimension of the second plate section in a direction parallel to the folding-back section is smaller than that of the first plate section in the direction parallel to the folding-back section.

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.

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.

A fixing device is used to fix a cable to a substrate. The cable has a first conductor and a second conductor. The substrate has a first substrate fixing portion and a second substrate fixing portion which corresponding to the first conductor and the second conductor, respectively. The fixing device has a first electrode portion, a second electrode portion and a coupling portion which connects the first electrode portion and the second electrode portion to each other. The first electrode portion has a first connection portion to be connected to the first conductor and a first fixing portion to be connected to the first substrate fixing portion. The second electrode portion has a second connection portion to be connected to the second conductor and a second fixing portion to be connected to the second substrate fixing portion.

A fixing device is used to fix a cable to a substrate. The cable has a first conductor and a second conductor. The substrate has a first substrate fixing portion and a second substrate fixing portion which corresponding to the first conductor and the second conductor, respectively. The fixing device has a first electrode portion, a second electrode portion and a coupling portion which connects the first electrode portion and the second electrode portion to each other. The first electrode portion has a first connection portion to be connected to the first conductor and a first fixing portion to be connected to the first substrate fixing portion. The second electrode portion has a second connection portion to be connected to the second conductor and a second fixing portion to be connected to the second substrate fixing portion.