Method for controlling an operating point change of a fuel cell stack and a fuel cell system

What is claimed is: 1 . A method for controlling an operating point change of a fuel cell stack operated with an anode operating medium and with a cathode operating medium, the method comprising: controlling the fuel cell stack in such a way that, starting from an electric initial power, the fuel cell stack generates a target power requested by an electrical consumer, the target power being greater than the initial power, the electric power generated by the fuel cell stack being controlled in accordance with a predetermined current-voltage profile, so that a voltage present at the fuel cell stack, starting from an initial voltage corresponding to the initial power, passes through a local voltage minimum and then increases to an end voltage corresponding to the target power. 2 . The method as recited in claim 1 wherein the local voltage minimum corresponds to a single cell voltage of no more than 0.7 volts. 3 . The method as recited in claim 2 wherein the local voltage minimum corresponds to a single cell voltage of no more than 0.6 volts. 4 . The method as recited in claim 1 wherein an electric power generated during the operating point change is directly consumed by an electrical consumer. 5 . The method as recited in claim 4 wherein the electrical consumer is a traction motor. 6 . The method as recited in claim 1 wherein the generated electric power is controlled by modifying the stoichiometry of the anode operating medium or of the cathode operating medium in accordance with the current-voltage profile. 7 . The method as recited in claim 6 wherein the generated electric power is controlled by modifying the stoichiometry of the cathode operating medium in accordance with the current-voltage profile. 8 . The method as recited in claim 1 wherein the generated electric power is controlled in accordance with the predetermined current-voltage profile briefly passing through a current intensity or power higher than the target power, and further comprising storing a surplus power in an electric energy store. 9 . The method as recited in claim 1 wherein the generated electric power is controlled in accordance with the predetermined current-voltage profile in such a way that initially the voltage steadily decreases to a current intensity corresponding to the target power, after which the voltage rapidly increases at an essentially constant current intensity until the voltage reaches a voltage corresponding to the target power. 10 . The method as recited in claim 1 wherein the generated electric power is controlled in accordance with the predetermined current-voltage profile in such a way that initially the voltage is suddenly ramped down to the local voltage minimum, and then suddenly ramped up again, and the current intensity then increases until the current intensity reaches a current intensity corresponding to the target power. 11 . The method as recited in claim 10 wherein the voltage is initially suddenly ramped down to approximately 0 volts. 12 . A fuel cell system comprising: a fuel cell stack, and a control unit configured to carry out executable steps to execute the method as recited in claim 1 . 13 . A vehicle comprising: a fuel cell system as recited in claim 12 .