Domestic refrigeration appliance with a coolant circuit and method for operating a domestic refrigeration appliance with a coolant circuit

The invention claimed is: 1. A method of operating a domestic refrigeration appliance, the appliance having a heat-insulated housing with a coolable inner container, which delimits a coolable interior for storing foods, an actuator, and a coolant circuit with a compressor for cooling the coolable interior, the compressor having a three-phase motor with motor windings to be operated by the actuator by electrically powering the motor windings, the method comprising: operating the compressor in a switched-on state by operating the three-phase motor, activated by the actuator, substantially at a predetermined rotational speed; switching off the compressor from the switched-on state by: reducing the rotational speed of the three-phase motor, under control of the actuator, until the rotational speed reaches a predetermined minimum rotational speed; and subsequently switching off the three-phase motor by de-energizing the motor windings for a predetermined period of time; thereby selecting the predetermined period of time to be long enough for the rotational speed of the three-phase motor, beginning from the minimum rotational speed, to reach a rotational speed of zero rpm; and after the expiration of the predetermined period of time, applying an active braking to the three-phase motor with the actuator to ensure that the three-phase motor and the compressor reach a complete shutdown. 2. The method according to claim 1 , wherein: the three-phase motor is a three-phase synchronous motor; and/or the compressor is a piston compressor; the domestic refrigeration appliance has a closed-loop controlled electric drive comprising the actuator and the three-phase motor, and having speed-regulated operation of the compressor in the switched-on state, so that the three-phase motor is operated, activated by the actuator, at substantially the predetermined rotational speed; and/or the actuator is a converter that generates a three-phase electric voltage with a frequency assigned to the rotational speed of the three-phase motor from a direct voltage and the three-phase electric voltage is applied to the motor windings for activating the motor windings with the electric power. 3. The method according to claim 2 , wherein the reducing step comprises decreasing a frequency of a three-phase electrical voltage to decrease the rotational speed of the three-phase motor to the predetermined minimal rotational speed. 4. The method according to claim 2 , wherein the reducing step comprises speed-regulated decreasing of the rotational speed of the three-phase motor controlled by the actuator until the rotational speed reaches the predetermined minimum rotational speed. 5. A method of operating a domestic refrigeration appliance, the appliance having a heat-insulated housing with a coolable inner container, which delimits a coolable interior for storing foods, an actuator, and a coolant circuit with a compressor for cooling the coolable interior, the compressor having a three-phase motor with motor windings to be operated by the actuator by electrically powering the motor windings, the method comprising: operating the compressor in a switched-on state by operating the three-phase motor, activated by the actuator, substantially at a predetermined rotational speed, the compressor having a compressor chamber with an inlet and with an outlet, a piston movably supported within the compressor chamber and a crankshaft, and the three-phase motor having a stator with the motor windings and a rotor rotatably supported with respect to the stator and coupled via the crankshaft with the piston; in the switched-on state of the compressor, reducing a volume with the piston, for compressing a coolant of the coolant circuit enclosed by the compressor chamber; switching off the compressor from the switched-on state by: reducing the rotational speed of the three-phase motor, under control of the actuator, until the rotational speed reaches a predetermined minimum rotational speed; and subsequently switching off the three-phase motor by de-energizing the motor windings for a predetermined period of time; thereby selecting the predetermined period of time to be long enough for the rotational speed of the three-phase motor, beginning from the minimum rotational speed, to reach a rotational speed of zero rpm; and, additionally, once the three-phase motor has reached the rotational speed of zero rpm, moving the three-phase motor, under control of the actuator, until the piston assumes a predetermined position relative to the compressor chamber. 6. A domestic refrigeration appliance, comprising: a heat-insulated housing with a coolable inner container that delimits a coolable interior for storing foods; an actuator and a coolant circuit for cooling the interior, said coolant circuit including a compressor with a three-phase motor having motor windings to be activated with electric power under control of said actuator; an electronic control device for controlling an operation of said cooling circuit, said electronic control device being configured: to activate said actuator such that, when said compressor is switched on, a rotational speed of said three-phase motor, on account of activation by said actuator is substantially equal to a predetermined rotational speed; to activate said actuator at least indirectly in order to switch off said compressor and to decrease the rotational speed of said three-phase motor under control by said actuator until the rotational speed reaches a predetermined minimum rotational speed; to subsequently activate said actuator to switch off said three-phase motor for at least a predetermined period of time, by de-energizing said motor windings, and to thereby select the predetermined period of time to be long enough for the rotational speed of said three-phase motor, beginning from the minimal rotational speed, to reach a rotational speed of zero rpm; and to subsequently, after the expiration of the predetermined period of time, apply an active braking to ensure that the three-phase motor and the compressor reach a complete shutdown under control of the actuator. 7. The domestic refrigeration appliance according to claim 6 , wherein: said three-phase motor is a three-phase synchronous motor; said compressor is a piston compressor; and/or a closed-loop controlled electric drive comprising said actuator and said three-phase motor, and configured to operate said compressor in a switched-on state in a speed-regulated manner by way of said electric drive, so that the rotational speed of said three-phase motor is substantially equal to the predetermined rotational speed; and/or said actuator is a converter that generates a three-phase electric voltage with a frequency assigned to the rotational speed of said three-phase motor from a direct voltage, said voltage being applied to said motor windings for activating said motor windings with the electric power. 8. The domestic refrigeration appliance according to claim 7 , configured to decrease the frequency of the three-phase electrical voltage, so that the rotational speed of said three-phase motor decreases to the predetermined minimal rotational speed. 9. The domestic refrigeration appliance according to claim 7 , configured to decrease the rotational speed of said three-phase motor in the speed-regulated manner controlled by said actuator until the rotational speed reaches a predetermined minimum rotational speed. 10. The domestic refrigeration appliance according to claim 6 , wherein: said compressor comprises a compressor chamber with an inlet and an outlet, a piston movably supported within said compressor chamber and a crankshaft; said three-phase motor comprises a sta