Fuel cell vehicle having a plurality of selectable operating modes

The invention claimed is: 1. A fuel cell vehicle, comprising: a fuel cell system having a fuel cell stack for providing an electrical power P stack and at least one auxiliary unit for operating the fuel cell stack with an electrical power consumption P aux ; an air-conditioning system for regulating a temperature of a vehicle interior space, the air-conditioning system including an electric auxiliary heater and an air-conditioning compressor with a collective electrical power demand P AC ; an electric motor for driving the fuel cell vehicle with a power demand P EM ; a plurality of sensors for detecting a temperature outside of the fuel cell vehicle, a first driver input, and a second driver input; and a control unit that is configured to operate the fuel cell vehicle, based on the first driver input, in one of a plurality of operating modes, each operating mode of the plurality of operating modes provides a power consumption P AC of the air-conditioning system, an operating point of the fuel cell stack, and a transfer function for determining the power demand P EM from the second driver input; wherein the control unit is configured to operate the fuel cell vehicle in a first operating mode that: provides the air-conditioning system in a first manner based the temperature outside of the fuel cell vehicle; provides the operating point of e fuel cell stack at or near a first efficient operating point; and selects the transfer function for determining the power demand P EM such that the fuel cell stack provides a net power P net with a first delay based on the second driver input, the first delay being greater than a threshold delay. 2. The fuel cell vehicle according to claim 1 wherein the control unit is configured to operate the fuel cell vehicle in a second operating mode that: provides the air-conditioning system in a second manner independent of the temperature outside of the fuel cell vehicle; provides the operating point of the fuel cell stack at or near a second threshold sound emission operating point; and select the transfer function for determining the power demand P EM such that the fuel cell stack provides a net power P net with a second delay based on the second driver input and a threshold power consumption P aux max of the at least one auxiliary unit, the second delay being greater than the threshold delay. 3. The fuel cell vehicle according to claim 1 wherein the control unit is further configured to determine the second delay such that a threshold power consumption P aux max of the at least one auxiliary unit is reduced. 4. The fuel cell vehicle according to claim 2 wherein the control unit is configured to operate the fuel cell vehicle in a third operating mode that: provides the air-conditioning system in the first manner based on the temperature outside of the fuel cell vehicle; provides the operating point of the fuel cell stack at a third intermediate operating point; and select the transfer function for determining the power demand P EM such that the fuel cell stack provides a net power P net with a third delay based on the second driver input and a threshold power consumption P aux max of the at least one auxiliary unit. 5. The fuel cell vehicle according to claim 1 wherein the first manner includes providing the electric auxiliary heater at a temperature below a first predetermined temperature, and providing the air-conditioning compressor at a temperature above a second predetermined temperature. 6. The fuel cell vehicle according to claim 3 wherein the control unit is configured to operate the fuel cell vehicle in a fourth operating mode that: provides the air-conditioning system independent of the temperature outside of the fuel cell vehicle in the second manner; determines the operating point of the fuel cell stack based on a driver, a vehicle, or an environmental parameter; and selects the transfer function for determining the power demand P EM based on the driver, the vehicle, or the environmental parameter. 7. The fuel cell vehicle according to claim 6 wherein the control unit is configured to operate the fuel cell vehicle in a fifth operating that: provides the air-conditioning system based on a third driver input; determine the operating point of the fuel cell stack based on a fourth driver input; and determine the transfer function for determining the power demand P EM based on a fifth driver input. 8. The fuel cell vehicle according to claim 1 wherein the plurality of sensors includes: a first sensor configured to determine the first driver input based on a mechanical, acoustic, or electromechanical input variable; and a second sensor configured to determine the second driver input based on a pedal value. 9. The fuel cell vehicle according to claim 1 , further including an automatic transmission, wherein the control unit is configured to vary control of the automatic transmission based on one of the plurality of operating modes. 10. The fuel cell vehicle according to claim 2 wherein the control unit is further configured to determine the second delay such that the threshold power consumption P aux max of the at least one auxiliary unit is reduced. 11. A device, comprising: a fuel cell system having a fuel cell stack; an air-conditioning system; an electric motor; a first sensor that detects in operation a temperature; a second sensor that detects in operation a first driver input; a third sensor that detects in operation a second driver input; and a control unit coupled to the fuel cell system, the air-conditioning system, and the electric motor, the control unit selects one of a plurality of operating modes based on the first driver input and the second driver input, each operating mode provides a power consumption of the air-conditioning system, an operating point of the fuel cell stack, and a transfer function that determines a power demand in response to the second driver input; wherein the plurality of operating modes includes a first operating mode that: operates the air-conditioning system in a first manner based on the temperature; provides the operating point of the fuel cell stack is at or near a first efficient operating point, and determines the transfer function to provide the fuel cell stack a net power with a first delay in response to the second driver input, the first delay being greater than a threshold delay. 12. The device according to claim 11 wherein the plurality of operating modes includes a second operating mode that: operates the air-conditioning system in a second manner independent of the temperature; provides the operating point of the fuel cell stack at or near a second threshold sound emission operating point; and determines the transfer function to provide the fuel cell stack a net power with a second delay based on the second driver input and a threshold power consumption of an auxiliary unit that operates the fuel cell stack, the second delay being greater than the threshold delay. 13. The device according to claim 12 wherein the control unit determines in operation the second delay such that the threshold power consumption is reduced. 14. The device according to claim 12 wherein the plurality of operating modes includes a third operating mode that: operates the air-conditioning system in the first manner based on the temperature; provides the operating point of the fuel cell stack at a third intermediate operating point; and determines the transfer function of the power demand such that the fuel cell stack provides a net power with a third delay based on the second driver input an