Method for operating an electric motor for braking a vehicle, and control device for an electric motor designed at least for braking a vehicle

What is claimed is: 1. A method for operating an electric motor for braking a vehicle, comprising: controlling the electric motor in such a way that the vehicle is slowed or decelerated at least with the aid of a motor braking torque exerted by the controlled electric motor on at least one of: i) at least one wheel, and ii) at least one axle of the vehicle, the electric motor being controlled with regard to a setpoint speed change requested by one of a driver of the vehicle or an autonomous automatic control system of the vehicle, taking at least one default signal into account; ascertaining whether the requested setpoint speed change is in a predefined normal range, taking the at least one default signal into account; if the requested setpoint speed change is in the predefined normal range, controlling the electric motor in such a way that a load to be applied by the electric motor remains less than or equal to a nominal load capacity of the electric motor; and if the requested setpoint speed change is outside the predefined normal range, controlling the electric motor in such a way that a load to be applied by the electric motor exceeds the nominal load capacity of the electric motor, at least during a predefined overload operation time interval. 2. The method as recited in claim 1 , wherein if the requested setpoint speed change is outside the predefined normal range, the electric motor is controlled in such a way that the load to be applied by the electric motor exceeds the nominal load capacity of the electric motor during the predefined overload operation time interval of 750 ms maximum. 3. The method as recited in claim 1 , wherein, if the requested setpoint speed change is outside the predefined normal range, at least one estimated or ascertained variable concerning a friction braking torque instantaneously exerted by at least one wheel brake cylinder of a hydraulic braking system of the vehicle is also taken into account during the control of the electric motor. 4. The method as recited in claim 1 , wherein if the requested setpoint speed change is outside the predefined normal range, the load to be applied by the electric motor is controlled above the nominal load capacity of the electric motor only until at least one of: i) the estimated or ascertained variable exceeds a predefined or set limiting value, and ii) a wheel slip is detected. 5. The method as recited in claim 4 , wherein the limiting value is set taking into account at least one of: i) an instantaneous speed of the vehicle, ii) an instantaneous longitudinal acceleration of the vehicle, and iii) an instantaneous transverse acceleration of the vehicle. 6. A control device for an electric motor which is designed at least for braking a vehicle, the control device comprising: an electronics unit which is designed for controlling the electric motor, taking into account at least one provided default signal concerning a setpoint speed change requested by a driver of the vehicle or an autonomous automatic control system of the vehicle, in such a way that a motor braking torque is exertable on at least one of: i) at least one wheel of the vehicle, and ii) at least one axle of the vehicle, with the aid of the controlled electric motor, so that the vehicle may be slowed/decelerated at least with the aid of the motor braking torque of the electric motor; wherein the electronics unit is additionally designed to: i) recognize whether the requested setpoint speed change is in a predefined normal range, taking the at least one default signal into account, ii) control the electric motor in such a way that a load to be applied by the electric motor remains less than or equal to a nominal load capacity of the electric motor, if the requested setpoint speed change is in the predefined normal range, and iii) control the electric motor in such a way that the load to be applied by the electric motor exceeds the nominal load capacity of the electric motor, at least during a predefined overload operation time interval, if the requested setpoint speed change is outside the predefined normal range. 7. The control device as recited in claim 6 , wherein the electronics unit is additionally designed for controlling the electric motor in such a way that the load to be applied by the electric motor exceeds the nominal load capacity of the electric motor during the predefined overload operation time interval of 750 ms maximum, if the requested setpoint speed change is outside the predefined normal range. 8. The control device as recited in claim 7 , wherein the electronics unit is designed for also taking into account at least one provided or self-determined variable concerning a friction braking torque instantaneously exerted by at least one wheel brake cylinder of a hydraulic braking system of the vehicle, during control of the electric motor, at least if the requested setpoint speed change is outside the predefined normal range. 9. The control device as recited in claim 8 , wherein the electronics unit is additionally designed for controlling the electric motor in such a way that the load to be applied by the electric motor is above the nominal load capacity of the electric motor only until at least one of: i) the provided or self-determined variable exceeds a predefined or set limiting value, and ii) a wheel slip signal regarding a wheel slip that is instantaneously present is received by the electronics unit, if the requested setpoint speed change is outside the predefined normal range. 10. The control device as recited in claim 9 , wherein the electronics unit is additionally designed for setting the limiting value, taking into account at least one of: i) an instantaneous speed of the vehicle, ii) an instantaneous longitudinal acceleration of the vehicle, and iii) an instantaneous transverse acceleration of the vehicle. 11. An electric motor which is designed at least for braking a vehicle, the electric motor including a control device comprising: an electronics unit which is designed for controlling the electric motor, taking into account at least one provided default signal concerning a setpoint speed change requested by a driver of the vehicle or an autonomous automatic control system of the vehicle, in such a way that a motor braking torque is exertable on at least one of: i) at least one wheel of the vehicle, and ii) at least one axle of the vehicle, with the aid of the controlled electric motor, so that the vehicle may be slowed/decelerated at least with the aid of the motor braking torque of the electric motor; wherein the electronics unit is additionally designed to: i) recognize whether the requested setpoint speed change is in a predefined normal range, taking the at least one default signal into account, ii) control the electric motor in such a way that a load to be applied by the electric motor remains less than or equal to a nominal load capacity of the electric motor, if the requested setpoint speed change is in the predefined normal range, and iii) control the electric motor in such a way that the load to be applied by the electric motor exceeds the nominal load capacity of the electric motor, at least during a predefined overload operation time interval, if the requested setpoint speed change is outside the predefined normal range. 12. A braking system for a vehicle, the braking system including a control device, the control device comprising: an electronics unit which is designed for controlling the electric motor, taking into account at least one provided default signal concerning a setpoint speed change requested by a driver of the vehicle or an autonomous automatic control system of the vehicle, in such a way that a motor brak