Gated diode, battery charging assembly and generator assembly

What is claimed is: 1. A gated diode comprising: source zones and a drain zone of a first conductivity type, the source zones directly adjoining a first surface and the drain zone directly adjoining an opposite second surface of a semiconductor die, the drain zone comprising a drift zone formed in an epitaxial layer of the semiconductor die; base zones of a second conductivity type opposite to the first conductivity type, the base zones provided between the drain zone and the source zones; gate electrodes; and gate dielectrics between one of the base zones and one of the gate electrodes, wherein the base zones are electrically connected with the source zones and the gate electrodes, the drain zone comprises adjustment zones of the first conductivity type, the adjustment zones directly adjoining one of the base zones and being arranged between the respective base zone and the second surface, respectively, and having a net dopant concentration at least twice a net dopant concentration in portions of the drift zone adjoining the adjustment zones. 2. The gated diode of claim 1 , wherein the net dopant concentration in the adjustment zones is at least ten times the net dopant concentration in the portions of the drift zone adjoining the adjustment zones. 3. The gated diode of claim 1 , wherein the adjustment zones adjoin the base zones in sections where a gradient of the net dopant concentration in a respective one of the base zones in a vertical direction orthogonal to the first surface is steepest. 4. The gated diode of claim 1 , wherein the drain zone comprises a substrate layer having a net dopant concentration at least ten times the net dopant concentration in the drift zone. 5. The gated diode of claim 4 , wherein the drift zone separates the substrate layer from the adjustment zones. 6. The gated diode of claim 1 , wherein the base zones comprise a base contact zone respectively, the base contact zones directly adjoining the first surface, and a net dopant concentration in the base contact zones being at least ten times a net dopant concentration in the portions of the base zones outside the base contact zones. 7. The gated diode of claim 6 , wherein the adjustment zones directly adjoin one of the base contact zones, respectively. 8. The gated diode of claim 6 , wherein a distance between the second surface and the base contact zones is smaller than a distance between the second surface and the portions of the base zones outside the base contact zones. 9. The gated diode of claim 1 , wherein the base zones comprise a well implant zone and a base extension zone respectively, the base extension zone formed between the well implant zone and the second surface and directly adjoining the well implant zone, and a net dopant concentration in the base extension zones is not lower than a net dopant concentration in portions of the well implant zones adjoining the base extension zones. 10. The gated diode of claim 1 , further comprising first columns of the first conductivity type extending in a vertical direction between the base zones and the drift layer and second columns of the second conductivity type extending in the vertical direction and connected with the base zones, wherein the adjustment zones are formed in the vertical direction of the second columns and directly adjoin the second columns. 11. The gated diode of claim 1 , further comprising: a first electrode layer electrically connected with the source zones, base zones, and gate electrodes through contact structures; a dielectric layer adjoining the first surface and separating the first electrode layer and the drain zone; and a second electrode layer directly adjoining the second surface. 12. The gated diode of claim 11 , further comprising: a base adapted to be press-fitted into an opening of a diode carrier plate and comprising a pedestal portion with a first flat surface; a head wire comprising a head portion with a second flat surface and a wire portion; and wherein the first electrode layer is soldered to one of the first and second flat surface and the second electrode layer is soldered to the other one of the first and second flat surfaces. 13. A gated diode comprising: source zones and a drain zone of a first conductivity type, the source zones directly adjoining a first surface and the drain zone directly adjoining an opposite second surface of a semiconductor die, the drain zone comprising a drift zone formed in an epitaxial layer of the semiconductor die; and base zones of a second conductivity type opposite to the first conductivity type, the base zones provided between the drain zone and the source zones, wherein the drain zone comprises adjustment zones, the adjustment zones directly adjoining one of the base zones and being arranged between the respective base zone and the second surface, respectively, and having a net dopant concentration at least twice a net dopant concentration in portions of the drift zone adjoining the adjustment zones, the base zones comprise a base contact zone respectively, the base contact zones directly adjoining the first surface, and a net dopant concentration in the base contact zones being at least ten times a net dopant concentration in the portions of the base zones outside the base contact zones, and a distance between the second surface and the base contact zones is smaller than a distance between the second surface and the portions of the base zones outside the base contact zones.