SU758110A1 - Ac voltage stabilizer - Google Patents

Description

The invention relates to electrical engineering and may find application in power sources of industrial and household equipment. ₍

A device is known that contains an adjustable element made on thyristors and a feedback circuit including a circuit for comparing the output voltage with the reference, phase-pulse control device and a discharge circuit [1].

The closest stabilizer to the proposed one contains two transformers, each of which has an input, output, support and control-1 winding, with the transformer windings of the same name connected in series, the input windings connected to the input terminals, the reference windings to the voltage reference, and equalizing 2 - to the output of the control source [2].

The disadvantages of the known devices are the distortion of the shape of the output voltage curve and a narrow stabilization range.

The purpose of the invention is to improve the shape of the output voltage curve and expand the stabilization range. 3

This goal is achieved by the fact that in the AC voltage regulator the control and supporting windings of one transformer are turned on in the opposite direction, and the other, according to the output windings are connected in the opposite direction and connected between the corresponding input and output terminals, and the input of the control source is connected to the output terminals.

The drawing shows a diagram of an AC voltage stabilizer.

The device contains two four-winding controlled transformers Tr, the input windings of which are connected in series and in accordance with and connected to the input terminals, the output windings "^ are connected in series and counterclockwise and connected with the input and output terminals, the control windings of Mu are connected in series and in accordance with and connected to the output of the differential amplifier Y, one input of which through a rectifier B is connected to the output terminals, and the other to a constant voltage source E, the supporting windings U _{> are} connected in series They are opposite and connected to the same DC voltage source E. Controlled transformers form an adjustable element (circled by a dotted line), and a differential amplifier AND a rectifier form a feedback circuit (circled by a dotted line).

The scheme works as follows.

Upon receipt at the input terminals of an alternating voltage, the amplitude of which is equal to the required output (the latter is set by the value of voltage E), the aforementioned alternating voltage is supplied to the output. This is because the signal generated by the feedback circuit is equal to zero. Consequently, the zero current in windings Mu, whereas windings M _Op _ flows direct current, caused by the voltage E. In both transformer cores are in saturation, and hence there is no transformation of the AC voltage SHA windings ⁱⁿ the winding ^{and the} voltage boost ^m yh equal to zero. .

When the amplitude of the input AC voltage deviates from the nominal value, the signal, having developed, May, by the feedback circuit, becomes nonzero (positive or negative, depending on the sign of the amplitude deviation). It promotes the flow of the windings Mu control current, which enters one of the cores in even greater saturation (of course, in its winding M is still not induced emf) and the other outputs in linear mode (in its winding Μ ^ ιχ ^at ~ begins to be induced EMF), i.e. in this case, the voltage boost to zero is already unequal. Depending on the sign of, the deviation of the amplitude of the input signal from the nominal value, that EMF core in the winding M ^ s is linearly output. which, being algebraically summed with the input signal, gives an output signal of nominal amplitude.

Thus, the proposed circuit stabilizes the alternating voltage, and since the adjustable element is built on controlled transformers, the output signal of which is practically the same as the sinusoidal one, and the stabilized output voltage is obtained by algebraic summation of the input voltage and the wave addition created by the adjustable element, the shape of the voltage curve at the load close to sinusoidal.

When the amplitude of the input signal increases in relation to the required one, the feedback circuit, working out the error signal, will turn on (i.e. put it in linear mode) the transformer, from the winding of which the voltage supply voltage, opposite to the input voltage, should come from. Similarly, when the amplitude of the input signal decreases, a transformer is turned on, which creates a voltage in phase with the input voltage in its winding. The voltage boost voltage amplitude is also variable and is determined by the degree of saturation of the included transformer, i.e. the magnitude of the current in the winding Mu. The greater the degree of saturation (the smaller the current in the Mu winding), the lower the voltage amplitude of the voltage boost.

The use of the invention allows to significantly improve the shape of the voltage curve at the load.

Claims (1)

Claim An AC voltage stabilizer containing two transformers, each of which has an input, output, support and control winding, the transformer windings of the same name connected in series, the input windings connected to the input terminals, the reference windings to the reference voltage source, and the control windings to the output of the control source, characterized in that, in order to improve the shape of the output voltage curve and expand the stabilization range, the control and supporting windings of one transformer are turned on in the opposite direction, and the other - according to which the secondary windings are ^connected: the counter and connected between respective input and output terminals and the control power input connected to the output terminals.