Method for braking a compressor, compressor of a refrigeration appliance, an air conditioning appliance or a heat pump, and refrigeration appliance, air conditioning appliance or heat pump having the compressor

The invention claimed is: 1. A method for braking a compressor of a refrigeration appliance, of an air conditioning appliance or of a heat pump, the method comprising the following steps: rotating a brushless permanent-magnet synchronous motor at an operating rotational speed for driving the compressor, the operating rotational speed being above a limit rotational speed; receiving a signal for slowing down the brushless motor; determining voltages induced in windings of the brushless motor; controlling the rotational speed of the motor, the controlling including: setting the limit rotational speed as a rotational speed above which the brushless motor is controlled by determining a rotor position using determined induced voltages; upon receiving the signal for slowing down, approaching the limit rotational speed by using a rotational speed regulation, and deactivating the rotational speed regulation upon reaching the limit rotational speed; and after deactivating the rotational speed regulation upon reaching the limit rotational speed, controlling the rotational speed of the motor along a predefined rotational speed curve by energizing the windings of the brushless motor with a braking current at a decreasing frequency, the braking current during braking being a function of the previously determined induced voltages and of frequencies of the previously determined induced voltages. 2. The method according to claim 1 , which further comprises providing the signal for slowing down as a preselected rotational speed being smaller than the operating rotational speed. 3. The method according to claim 2 , which further comprises providing the signal for slowing down as a preselected rotational speed of zero. 4. The method according to claim 1 , which further comprises determining a load torque for determining the braking current from the determined induced voltages. 5. The method according to claim 1 , which further comprises approaching the limit rotational speed by using a conventional or ramp-type rotational speed regulation. 6. The method according to claim 1 , which further comprises carrying out the step of energizing the windings of the brushless motor with a braking current at a frequency decreasing in a ramp-type manner. 7. The method according to claim 1 , which further comprises measuring induced voltages after slowing down to a rotational speed of zero. 8. The method according to claim 1 , which further comprises stopping the energizing step after slowing down. 9. The method according to claim 1 , which further comprises carrying out the energizing step with a substantially sinusoidal current. 10. The method according to claim 9 , which further comprises generating the substantially sinusoidal current by pulse width modulation. 11. A compressor of a refrigeration appliance, of an air conditioning appliance or of a heat pump, the compressor comprising: a brushless permanent-magnet synchronous motor having windings; and a controller for braking a rotational speed of said brushless permanent-magnet synchronous motor starting from an operational rotational speed above a limit rotational speed, said controller being configured for: setting the limit rotational speed as a rotational speed above which the brushless motor is controlled by determining a rotor position using determined induced voltages; upon receiving a signal for slowing down said brushless motor, using a rotational speed regulation to approach the limit rotational speed, and deactivating the rotational speed regulation upon reaching the limit rotational speed; and after deactivating the rotational speed regulation upon reaching the limit rotational speed, controlling a rotational speed of said brushless motor along a predefined rotational speed curve to slow down said brushless motor in a controlled manner with a braking current, said braking current during controlled braking being a function of induced voltages previously determined before said controlled braking and frequencies of the previously determined induced voltages. 12. A refrigeration appliance, air conditioning appliance or heat pump, comprising a compressor according to claim 11 .