High-current electrical circuit having a circuit board and a busbar

What is claimed is: 1. An electrical circuit comprising: a circuit board on which a plurality of electrical and/or electronic components are mounted; and a busbar that has a supporting body having a first side and second side opposite from the first side, and at least first, second, and third connections provided on the first side of the supporting body, the supporting body of the busbar being spaced apart from the circuit board, all of the first, second, and third connections of the busbar being electrically contacted both with the supporting body and with the circuit board, the supporting body extending in a longitudinal direction, the first side being parallel to the longitudinal direction, the second side of the supporting body being inclined relative to the first side, wherein the supporting body has a first cross section between the first and second connections and a second cross section between the second and third connections, the first and second cross sections extending in a lateral direction perpendicular to the longitudinal direction, wherein a width of the busbar continuously decreases in the longitudinal direction over a substantial portion of an entire length of the busbar, and wherein the first cross section is smaller than the second cross section. 2. The electrical circuit according to claim 1 , wherein the busbar is formed as a single piece, is a stamped/bent part, and/or has nickel-plated copper. 3. The electrical circuit according to claim 1 , wherein one end of the supporting body is the contact of the first connection, and/or wherein one end of the supporting body has an opening in which a threaded bolt is situated at least partially via which a cable lug is attached to the supporting body. 4. The electrical circuit according to claim 1 , wherein the busbar comprises a plurality of further connections, wherein the supporting body has a cross section between adjacent connections, and wherein each cross section is increased with an increasing distance to the first connection. 5. The electrical circuit according to claim 1 , wherein the cross section of the connections is substantially the same, and/or wherein a distance between contacts of adjacent connections is substantially the same. 6. The electrical circuit according to claim 1 , wherein each connection has a plurality of pins, which are pressed into first openings of the circuit board. 7. The electrical circuit according to claim 1 , wherein the supporting body has a bent section extending from the first side towards the circuit board such that the first cross section and the second cross section are each L-shaped, and wherein the cross section of the supporting body in an area of contacts of the connections is formed by two spaced apart legs. 8. A busbar of an electrical circuit according to claim 1 . 9. The electric circuit according to claim 1 , wherein the supporting body has a right triangular shape, the first side is on one of two sides forming the right angle. 10. A busbar comprising: a base section; a supporting body having a right triangular shape; and at least one connection formed on the supporting body, wherein the supporting body has a first side and a second side forming the right angle, the first side extending in a longitudinal direction, the second side extending in the lateral direction, wherein the at least one connection extends from the first side of the supporting body in a thickness direction perpendicular to the longitudinal and lateral directions, and the base section is connected to the second side of the supporting body and extends in the longitudinal direction. 11. The busbar of claim 10 , wherein the base section includes an opening. 12. The busbar of claim 10 , wherein each of the at least one connection includes an opening formed by two spaced apart legs. 13. The busbar of claim 10 , wherein the supporting body has a side wall extending from the first side in the thickness direction, forming an L-shaped cross section in the lateral direction of the supporting body, and the at least one connection is formed on the bent section. 14. The busbar of claim 13 , wherein at least one recess is formed on a bent area formed between the supporting body and the side wall.