Patent ID: 7166974

Claim:
A single-phase synchronous motor which is supplied with alternating current and which is controlled in accordance with a method for controlling the firing angle of a single-phase electric motor supplied with alternating current, by way of at least one locking electronic switch between the supply voltage and at least one motor winding, with which the switch or switches are switched according to one or more of the following conditions: a) the voltage (EMF) induced in the winding to be connected has the same polarity as the supply voltage, b) the voltage (EMF) induced in the winding to be connected, with the same polarity, is smaller than the supply voltage with regard to magnitude, c) the voltage (EMF) induced in the winding to be connected, with respect to its zero-crossing is located in a predefined angular range, assuming the same polarity of the induced voltage and the supply voltage, d) the zero-crossing of the supply voltage lies in front of the expected zero-crossing of the voltage (EMF) induced in the winding to be connected, assuming the same direction, e) the firing is effected in a manner such that the angle between the voltage (EMF) induced in the winding to be connected and the supply voltage assumes a predefined value, f) the firing is effected in a manner such that the angle between the point in time when the current in the winding to be connected assumes the value zero up to the point in time at which the induced voltage (EMF) in this winding assumes the value zero is dependent on the angle which lies between the previous zero-crossing of the induced voltage and the current point in time of firing, wherein the motor comprises a permanent magnet rotor with at least one winding (A, B) which is arranged in the stator and which may be subjected to the supply voltage (U v ) by way of a locking electronic switch (T 2 , T 3 ), and with an electronic control circuit (R 1 ) (speed control circuit) which controls a settable nominal rotational speed (n nom ) whilst applying the firing rules according to claim elements a) to d), and wherein a further control circuit (R 2 ) is provided for optimising the efficiency, which controls whilst applying the optimization rules according to claim elements e and f.