SU634382A1 - Voltage regulator - Google Patents

Description

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The invention relates to the field of electrical engineering and can be used in any branch of industry, for non-contact adjustment of the output voltage of a transformer.

A transformer with smooth voltage regulation by magnetic switching of coils is known, which contains a magnetic circuit, on the rods of which there are power windings and a core, on two of which winding windings are located. The adjustable part of the secondary winding is located between the controlled piles l.

The disadvantage of this regulator is the presence of a developed magnetic circuit, high consumption of active materials, and lowered energy indices.

Also known is a voltage regulator containing a transformer, on the cores of which the primary and secondary windings are located, and a capacitor connected in series with the primary winding 2j.

This regulator is the closest to the proposed technical essence.

The aim of the invention is to provide the possibility of smoothly regulating the output voltage.

This is comprehended by the fact that a voltage regulator is proposed that contains a transformer, on the cores of which the primary and secondary windings are located, and the capacitor, connected in series to the primary winding, is complementaryly provided with a bias winding located on the transformer's magnetic circuit.

The drawing shows a schematic diagram of the proposed voltage regulator.

It contains a valve, on the cores of which the primary winding 2 and the secondary winding 3 are located. The capacitor 4 is switched on in series with the primary winding 2. The magnetic winding 5 is located on the magnetic core 1, for example on the 5th side. 63 In the case of magnetization by direct current, the magnetic conductivity of magnetic circuit 1 of the magnesformara changes, which leads to a change in the coupling coefficient of the primary 2 and secondary 3 windings. In this case, the magnitude of the magnetizing inductance of the magnetization current is changed. The voltage at the output of the transformer corresponds to the transformation ratio K W / W t 2 -t J where W is the number of turns of the primary winding; Wg is the number of turns of the secondary winding. When the capacitor 4 transformer is connected to the primary circuit, the voltage per turn and the induction in the magnetic circuit increase, and the output voltage increases. The voltage increase factor is determined by the formula where x is capacitance. 24 When adjusting X, the secondary voltage of a transformer can be varied over a wide range, and since YK has the formula of the invention, a voltage regulator containing a transformer, on the cores of whose magnetic circuit there are primary and secondary windings, and a capacitor connected in series with the primary winding, which differs By the fact that, in order to enable smooth control of the output voltage of the transformer, the controller is provided with a bias winding located on the transformer magnetic core. Sources of information taken into account in the examination: 1. Troitsky V. A, Magnetizable transformers of welding power sources, Automatic welding, 1968, No. 12, p. 31-34. 2. N. G. et al. Investigation of the circuit of a ferro-resonance current stabilizer. Lime AN Uzb. SSR, series of technical sciences, 1968, Na 2, p. 3-7,

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