SU636763A1 - Two-phase induction electric motor control device - Google Patents

Description

The target is achieved by the fact that the control device of a two-phase asynchronous power generator contains a voltage doubled rectifier bridge, one of the diagonals of which includes one of the phase windings and an alternating voltage source, and the other is a transistor, and the second phase winding is connected directly to the source alternating voltage Simplification of the circuit and reduction of dimensions is achieved due to the fact that the capacitors entering the bridges are simultaneously phase shifting for a given phase winding of the electric motor. The best energy characteristics of the proposed device are due to the fact that in the most severe starting mode, a current is flowing into each half-cycle through the transistor, which is closed only through one capacitor. The best dynamic properties of the proposed device are due to the lower output impedance of the device. The image is illustrated in the drawing, which shows a diagram of a control device for a two-phase asynchronous electric motor. The control unit contains a motor-type rectifier 1 with voltage doubling, in one of the diagonals of which one of the phase windings of the electric motor 2 and the alternating voltage source 3 is connected, and in the other diagonal - the transistor 4. The second phase winding is connected directly to the alternating voltage source 3 wives The base current of transistor 4 is set from the source of control signal 5. The bridge rectifier - a doubler consists of diodes 6, 7 and capacitors 8, 9. The capacity of each co-capacitor is equal to half the required capacitance of the phase-shifting capacitor. When transistor 4 is closed, capacitors 8, 9 are charged through diodes 6, 7 to the maximum voltage of source 3, so that diodes 6, 7 turn out to be closed and there is no current in the phase winding, and therefore no torque. If the transistor 4 is opened by a signal from the source 5, then the diodes 6, 7 are turned on in parallel - opposite, and the capacitors 8, 9 - in parallel. At the same time through the transistor 4 and one of the capacitors in each half-cycle passes half the current of the phase winding. The other half of the current is closed by another capacitor. A decrease in the base current of the transistor leads to a decrease in the collector current, and hence the phase current.

Claims (2)

This leads to a change in the torque of the electric motor from maximum to zero. In this case, the phase of the winding current rotates towards the lagging side, since the transistor has an active cprag. The proposed control device of a synchronous electric motor consists of a small number of widely used elements, simply and reliably. The use of the proposed device in closed automatic control systems makes it possible to simplify corrective means and improve the quality of control by improving the dynamic characteristics. Decreasing the starting current of the transistor allows improving the energy performance of the control device of the asynchronous motor. In addition, the proposed device can work with another regulating element instead of a transistor, for example, with a photodiode, photoresistor, thyristor. The invention The control device is a two-phase asynchronous electric motor containing a rectifying bridge to the output of which a transistor is connected, and its input is used to connect an alternating current source and motor windings, characterized in that, in order to simplify it, reduce weight and overall dimensions, and improving the dynamic characteristics, the rectifying bridge is made according to the voltage doubling scheme, each rectifier bridge input terminal being intended to connect one coil of windings an electric motor, and one of the terminals is additionally intended for connecting the power supply terminal. Sources of information taken into account in the examination: 1.Patent of France No. 2142554, cl. H O2 P 7 / OO, 1973. 2. Japanese patent number 49 - 47084, cl. H O2 P / 36, 1974.