Control device and method for operating a braking system of a vehicle equipped with an electric brake booster

What is claimed is: 1. A control device for a braking system of a vehicle equipped with an electric brake booster, the control device comprising: an activating unit configured to: establish, taking into account at least one provided sensor signal regarding a setpoint brake pressure requested by a driver of the vehicle for at least one wheel brake cylinder of the braking system, at least a first setpoint variable regarding a brake pressure portion from the booster to be generated in the respective wheel brake cylinder with the aid of the electric brake booster, wherein the brake pressure portion from the booster is in addition to a brake pressure portion from the driver achievable in the respective wheel brake cylinder with the aid of a brake pressure applied by the driver; and output to the electric brake booster at least one brake pressure booster control signal which corresponds to the at least one first setpoint variable; wherein the activating unit is configured to establish the at least one first setpoint variable in such a way that, (i) provided the setpoint brake pressure requested for the at least one wheel brake cylinder is below a predefined limiting value, the brake pressure portion from the booster to be generated in the respective wheel brake cylinder equals a difference between the setpoint brake pressure requested for the respective wheel brake cylinder and the brake pressure portion from the driver in the respective wheel brake cylinder, and (ii) once the predefined limiting value is exceeded by the setpoint brake pressure requested for the at least one wheel brake cylinder, the brake pressure portion from the booster to be generated in the respective wheel brake cylinder one of remains constant or decreases. 2. The control device as recited in claim 1 , wherein the activating unit is further configured to (i) establish, taking into account the at least one provided sensor signal, at least one second setpoint variable regarding a setpoint functionality to be carried out with the aid of at least one hydraulic component of the braking system, and (ii) output at least one hydraulic control signal corresponding to the at least one second setpoint variable to the at least one hydraulic component. 3. The control device as recited in claim 2 , wherein the activating unit is further configured to establish the at least one first setpoint variable and the at least one second setpoint variable in such a way that: (i) if the setpoint brake pressure requested for the at least one wheel brake cylinder is below a predefined limiting value, the brake pressure portion from the booster to be generated in the respective wheel brake cylinder equals the difference between the setpoint brake pressure requested for the respective wheel brake cylinder and the brake pressure portion from the driver in the respective wheel brake cylinder; and (ii) once the predefined limiting value is exceeded by the setpoint brake pressure requested for the at least one wheel brake cylinder, the brake pressure portion from the booster to be generated in the respective wheel brake cylinder one of remains constant or decreases, and a brake pressure portion from the hydraulic component with the aid of the at least one hydraulic component is generated in the respective wheel brake cylinder, the brake pressure portion from the hydraulic component being equal to a pressure difference between the setpoint brake pressure requested for the respective wheel brake cylinder and a sum of the brake pressure portion from the driver and the brake pressure portion from the booster in the respective wheel brake cylinder. 4. The control device as recited in claim 2 , wherein the predefined limiting value is no greater than 90 bar. 5. The control device as recited in claim 2 , wherein the activating unit is further configured to at least one of: (i) activate, in the event of a failure of the electric brake booster, the at least one hydraulic component in such a way that, with the aid of a new establishment of at least the second setpoint variable, the respective setpoint brake pressure is achieved; and (ii) activate, in the event of a failure of the at least one hydraulic component, the electric brake booster in such a way that, with the aid of a new establishment of the at least one first setpoint variable, the respective setpoint brake pressure is achieved. 6. The control device as recited in claim 5 , wherein the control device is part of the electric brake booster. 7. The control device as recited in claim 6 , wherein the electric brake booster is part of a braking system which further includes a hydraulic unit. 8. A braking system for a vehicle, comprising: an electric brake booster; at least one hydraulic component; and a control device including: an activating unit configured to: establish, taking into account at least one provided sensor signal regarding a setpoint brake pressure requested by a driver of the vehicle for at least one wheel brake cylinder of the braking system, at least a first setpoint variable regarding a brake pressure portion from the booster to be generated in the respective wheel brake cylinder with the aid of the electric brake booster, wherein the brake pressure portion from the booster is in addition to a brake pressure portion from the driver achievable in the respective wheel brake cylinder with the aid of a brake pressure applied by the driver; and output to the electric brake booster at least one brake pressure booster control signal which corresponds to the at least one first setpoint variable; wherein the activating unit is configured to establish the at least one first setpoint variable in such a way that, (i) provided the setpoint brake pressure requested for the at least one wheel brake cylinder is below a predefined limiting value, the brake pressure portion from the booster to be generated in the respective wheel brake cylinder equals a difference between the setpoint brake pressure requested for the respective wheel brake cylinder and the brake pressure portion from the driver in the respective wheel brake cylinder, and (ii) once the predefined limiting value is exceeded by the setpoint brake pressure requested for the at least one wheel brake cylinder, the brake pressure portion from the booster to be generated in the respective wheel brake cylinder one of remains constant or decreases. 9. The braking system as recited in claim 8 , wherein the electric brake booster is supplied with current independently of the at least one hydraulic component. 10. A method for operating a braking system of a vehicle equipped with an electric brake booster, comprising: ascertaining a setpoint brake pressure requested by a driver of the vehicle for at least one wheel brake cylinder; if the setpoint brake pressure requested for the at least one wheel brake cylinder is below a predefined limiting value, operating the electric brake booster in such a way that a brake pressure portion from the booster is generated with the aid of the electric brake booster in the respective wheel brake cylinder, the brake pressure portion from the booster is in addition to a brake pressure portion from the driver achievable with the aid of a brake pressure applied by the driver in the respective wheel brake cylinder, and is equal to a difference between the setpoint brake pressure requested for the respective wheel brake cylinder and the brake pressure portion from the driver achieved in the respective wheel brake cylinder; and once the predefined limiting value is exceeded by the setpoint brake pressure requested for the at least one wheel brake cylinder, operating the electric brake booster in such a way that the brake pressure portion