Electrochemical system for a fuel cell system with an embossed contacting plate

The invention claimed is: 1. The electrochemical system, comprising: an end plate; a stack cover plate adjacent to the end plate; and at least one metallic electrical conductor; wherein the stack cover plate has an electrically conductive contacting plate adjacent to the end plate and an electrically conductive separator plate half facing away from the end plate, wherein the contacting plate and the separator plate half are connected to each other electrically and fluid-tight; wherein the metallic electrical conductor extends to an outside of the electrochemical system; and wherein the metallic electrical conductor and the contacting plate are in one piece or the metallic electrical conductor contacts the contacting plate directly; wherein the contacting plate and the separator plate half are bonded to each other with a welded connection; wherein the contacting plate is an embossed part with contacting plate back side deformations and contacting plate front side deformations, said contacting plate back side deformations comprising channels for the conduct of a coolant on a back side of the contacting plate facing the separator plate half, and wherein the inner side of the end plate facing the contacting plate has at least another deformation that is designed so that the at least another deformation receives the contacting plate front side deformations when the end plate and the contacting plate are pressed together. 2. The electrochemical system of claim 1 , wherein the separator plate half, on its back side facing away from the contacting plate has channels for the conduct of a process gas or of a reaction product. 3. The electrochemical system of claim 1 , wherein the separator plate half has at least one opening for the conduct of a coolant, and wherein the separator plate half, on its back side facing away from the contacting plate, has a sealing device to seal the opening. 4. The electrochemical system of claim 3 , wherein the sealing device is a bead, wherein the bead has openings that are designed to conduct a coolant that is conducted through the opening of the separator plate half into a space located between the separator plate half and the contacting plate. 5. The electrochemical system of claim 1 , wherein the bonded connection between the contacting plate and the separator plate half is formed by a space located between the contacting plate and the separator plate half for the conduct of a coolant. 6. The electrochemical system of claim 5 , further comprising a plurality of electrochemical cells which are separated from one another by separator plates, wherein the separator plates each have a cavity for the passage of a coolant and wherein the volume of the space formed between the contacting plate and the separator plate half of the stack cover plate is smaller than the volume of the cavity of one of the separator plates. 7. The electrochemical system of claim 6 , wherein the following relation applies for the volume V Z of the space formed between the contacting plate and the separator plate half of the stack cover plate and for the volume V H of the cavity of one of the separator plates: 0.5·V H <V Z <V H . 8. The electrochemical system of claim 1 , wherein a back side of the separator plate half facing away from the contacting plate forms the boundary of an electrochemical cell, wherein the electrochemical cell comprises gas diffusion layers and a membrane electrode unit. 9. The electrochemical system of claim 1 , wherein the electrical conductor extends in whole or at least in part through the end plate. 10. The electrochemical system of claim 1 , wherein the contacting plate, on its side facing the end plate, has a protrusion, whereby the protrusion extends through the end plate to form the electrical conductor. 11. The electrochemical system of claim 1 , wherein the electrical conductor and the contacting plate are bonded to each other with a welded connection or a soldered connection. 12. The electrochemical system of claim 1 , wherein the contacting plate has an extension that projects parallel to the end surface plane of the end plate beyond the end plate to form the electrical conductor, wherein the extension is in the form of a bendable tab. 13. The electrochemical system of claim 1 , wherein the contacting plate is a metal sheet, wherein a material thickness of the contacting plate measured perpendicular to the end surface plane of the contacting plate is between 0.5 mm and 1.0 mm. 14. The electrochemical system of claim 1 , further comprising a sealing device located between the contacting plate and the end plate, wherein the sealing device has a second recess in the end plate and a sealing ring that is held at least partly in the second recess. 15. The electrochemical system of claim 14 , wherein a front side of the contacting plate facing the end plate is flat at least in the vicinity of the sealing device, so that the sealing ring, in the event of a displacement of the end plate relative to the contacting plate parallel to the end surface plane of the contact plate, is able to slide or roll on the contacting plate. 16. The electrochemical system of claim 14 , wherein the end plate and the contacting plate have contact areas facing each other that are designed so that during the operation of the electrochemical system, when the end plate and the contacting plate are pressed together along an application direction oriented perpendicular to the end surface plane of the end plate and of the contacting plate, the contact areas are in contact with each other so that an application force acting along the application direction is transmitted primarily via the contact areas and primarily not via the sealing device. 17. The electrochemical system of claim 14 , wherein the end plate and the contacting plate have openings for the conduct of a medium, wherein the sealing device for the sealing of the openings is located around the openings. 18. The electrochemical system of claim 1 , wherein at least 90 percent of a front side of the contacting plate facing the end plate is flat. 19. The electrochemical system of claim 1 , wherein the separator plate half has at least one opening for the conduct of a medium, and wherein the separator plate half, on its back side facing away from the contacting plate has a sealing device with a bead for the sealing of the opening, wherein the bead has openings that are designed to conduct a medium being conducted through the opening of the separator plate half into a space located between the separator plate half and the contacting plate. 20. The electrochemical system of claim 1 , wherein the system has two end plates, stack cover plates next to them, and a plurality of separator plates lying between the stack cover plates. 21. The electrochemical system of claim 1 , wherein the electrochemical system is a fuel cell system, an electrochemical compressor or an electrolyzer. 22. The electrochemical system of claim 1 , wherein the contacting plate, on its side facing the end plate, has a protrusion, wherein the protrusion extends at least partly into a first recess of the end plate and the electrical conductor contacts the contacting plate inside the recess on the protrusion. 23. The electrochemical system of claim 19 , wherein the medium is a coolant.