Copper busbar for a contact system

What is claimed is: 1. A busbar, comprising: first and second surfaces; and a stepped hole extending from the first surface to the second surface and configured to include first, second and third regions, with the first region adjoining the first surface and configured for enabling a self-clinching nut to be pressed centrally into the stepped hole in such a way that a radius in the first region assumes a first radius value and a step is formed between the first and second regions, and enabling the self-clinching nut to fasten a cable shoe to the second surface via a screw insertable into the stepped hole from a side of the second surface, said stepped hole defined by a radius which is constant over a length of the second region and defined by a second radius value which is less than the first radius value, said third region ending at the second surface and having at least at the second surface a radius defined by a third radius value which is less than the second radius value, wherein a radius at a boundary from the first region to the second region has a jump from the first radius value to the second radius value to thereby form a seating surface in parallel relation to the first surface at the boundary between the first and second regions for engagement by a toothing of the self-clinching nut, wherein the busbar is made of copper, wherein the second region adjoins the third region, and further comprising in the third region a cone extending completely across the third region and having the second radius value at a boundary to the second region. 2. The copper busbar of claim 1 , wherein the copper busbar has a thickness in a range of 4 mm to 6 mm, said third region having a length of at least 2 mm, with the third radius value having a value in a range between 2.15 mm and 2.4 mm. 3. The copper busbar of claim 1 , wherein the copper busbar has a recess and a thickness which is reduced in a vicinity of the recess sufficient to enable the self-clinching nut to be located completely in the stepped hole and the recess. 4. A method for producing a copper busbar as set forth in claim 1 , said method comprising incorporating the stepped hole of the copper busbar into the copper busbar by a punching machine. 5. A contact system, comprising: a cable shoe; a screw connection comprising a self-clinching nut and a screw; and a copper busbar comprising first and second surfaces, and a stepped hole extending from the first surface to the second surface and configured to include first, second and third regions, with the first region adjoining the first surface and configured for enabling the self-clinching nut to be pressed centrally into the stepped hole in such a way that a radius in the first region assumes a first radius value and a step is formed between the first and second regions, and enabling the self-clinching nut to fasten the cable shoe to the second surface via the screw as the screw is inserted into the stepped hole from a side of the second surface, said stepped hole defined by a radius which is constant over a length of the second region and defined by a second radius value which is less than the first radius value, said third region ending at the second surface and having at least at the second surface a radius defined by a third radius value which is less than the second radius value, wherein a radius at a boundary from the first region to the second region has a jump from the first radius value to the second radius value to thereby form a seating surface in parallel relation to the first surface at the boundary between the first and second regions for engagement by a toothing of the self-clinching nut, wherein the second region adjoins the third region, and further comprising in the third region a cone extending completely across the third region and having the second radius value at a boundary to the second region. 6. The contact system of claim 5 , wherein the copper bulbar has a recess and a thickness which is reduced in a vicinity of the recess sufficient to enable the self-clinching nut to be located completely in the stepped hole and the recess.