Control arrangement for a reluctance motor
First Claim
1. A control arrangement for a reluctance motor, comprising stator poles, (11a,b;
- 12a;
b) having windings (13a,b;
14a,b) and cooperating in pairs, and a rotor (15) made of soft magnetic material and having at least two poles (16a,b;
17a,b) disposed diametrically opposite each other, said motor being controlled by a sensor (X1) the output signal of which comprises a train of rectangular pulses and the front flank of each pulse coincides with the position of the rotor pole where it is about to move in over a stator pole whereas the rear flank of said pulse coincides with the position where the rotor pole leaves the stator pole, electronic switching means (33,34;
35,36) being provided which in dependence on said front flank applies voltage to the windings of one of the stator pole pairs (12a,b) and in dependence on said rear flank disconnects the voltage from said stator pole pair (12a,b) and applies voltage to the stator pole pair to follow (11a,b), wherein first means (28,30) are provided which generate a parameter which is a function of the motor current and second means (31) are provided which generate, in dependence on said parameter, a signal which causes a setting of the point of time, prior to the point of time corresponding to a flank of the sensor output signal, at which voltage is to be applied to the windings of the respective stator pole pair, said setting being made more prior as the current increases.
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Accused Products
Abstract
A control arrangement for a reluctance motor, comprising stator poles (11a, b; 12a, b) provided with windings (13a, b; 14a, b) which cooperate in pairs, and a rotor (15) made of soft magnetic material and having at least two poles (16a, b; 17a, b) disposed diametrically opposite each other. The motor is controlled by a sensor (X1) which each time a rotor pole is about to move in over a stator pole generates a ramp of a first polarity and when the rotor pole leaves the stator pole generates a ramp of a second polarity, opposite said first polarity. Electronic switching means (33, 34; 35, 36) are provided which in dependence on the first ramp apply voltage to the windings of one (12a, b) of the stator pole pairs and in dependence on the second ramp disconnect the voltage to said stator pole pair (12a, b) and apply voltage to the stator pole pair to follow. First means (28, 30) are provided to generate, in dependence on said parameter, a signal which causes a presetting of the time of voltage application to the windings of the respective stator pole pair, said presetting increasing as the current increases.
41 Citations
4 Claims
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1. A control arrangement for a reluctance motor, comprising stator poles, (11a,b;
- 12a;
b) having windings (13a,b;
14a,b) and cooperating in pairs, and a rotor (15) made of soft magnetic material and having at least two poles (16a,b;
17a,b) disposed diametrically opposite each other, said motor being controlled by a sensor (X1) the output signal of which comprises a train of rectangular pulses and the front flank of each pulse coincides with the position of the rotor pole where it is about to move in over a stator pole whereas the rear flank of said pulse coincides with the position where the rotor pole leaves the stator pole, electronic switching means (33,34;
35,36) being provided which in dependence on said front flank applies voltage to the windings of one of the stator pole pairs (12a,b) and in dependence on said rear flank disconnects the voltage from said stator pole pair (12a,b) and applies voltage to the stator pole pair to follow (11a,b), wherein first means (28,30) are provided which generate a parameter which is a function of the motor current and second means (31) are provided which generate, in dependence on said parameter, a signal which causes a setting of the point of time, prior to the point of time corresponding to a flank of the sensor output signal, at which voltage is to be applied to the windings of the respective stator pole pair, said setting being made more prior as the current increases. - View Dependent Claims (2, 3, 4)
- 12a;
Specification