SU1277295A1 - Electric power supply circuit - Google Patents

Abstract

This invention relates to the field of electrical engineering. The purpose of the invention is to increase the efficiency of voltage stabilization at rest load. When the power consumption of the rapidly alternating load 5 varies, the magnitude of the voltage drop across the winding 3 of the dual reactor changes. The current in the winding 3 due to the magnetic coupling causes a voltage drop on the winding 2 of the dual reactor. The presence of capacitor 6 with the same load current 5 increases the current through winding 3, and, consequently, an increase in positive (voltage of the voltage on the winding 2). Consequently, the effect of stabilizing the voltage on the terminals of the quiet load 4 is twisted. 1 Il. to tc CD cl

Description

The invention relates to electrical engineering, in particular, to schemes for the distribution of electricity between industrial electrical installations with increased requirements for the quality of electrical energy at the terminals of individual consumers.

The aim of the invention is to increase the effectiveness of voltage stabilization on a steady load.

FIG. 1 shows the proposed scheme for feeding loads through a twin reactor.

The circuit contains a three-phase transformer 1, two magnetically coupled windings 2 and 3 of a dual reactor, two loads 4 and 5, and a capacitor bank 6. All circuit elements are three-phase or three-phase (reactors 2, 3, capacitors 6). Load 4 - calm, load 5 abruptly alternating. The battery of capacitors 6 is connected in parallel with the winding 3 of the dual reactor between the terminals of the alternating load 5 and the output terminals of the transformer 1 Between the same terminals of the transformer 1 and the terminals of the steady load 4 the winding 2 of the dual reactor is turned

The device works as follows.

When the consumed power (current) of a sharply varying load 5 changes, the magnitude of the voltage drop across the winding 3 of the dual reactor changes. The greater the load current 5, the greater the voltage drop across the winding 3. The current in the winding 3 is due to

the presence of a magnetic connection M causes an increase in voltage on the winding 2 of the twin reactor, which compensates part of the voltage drop on the transformer 1 and thereby stabilizes the voltage on the terminals of the quiet load 4. The presence of a capacitor 6 at the same load current 5 causes an increase in current through the winding 3 (the sum of these currents having opposite signs is equal to the load current 5). An increase in the current through the winding 3 causes an increase in the positive deviation of the voltage on the winding 2. The voltage drop on the transformer 1 is maintained, since it is determined by summing the load currents, and not separately by the currents of the windings 3 or capacitor 6, i.e. the effect of voltage stabilization on the load clamps 4 increases

Claims (1)

Invention Formula The power supply circuit contains a three-phase transformer and a reactor with two magnetically connected, connected in series-according windings, the common points of which are connected to the output terminals of the transformer, and the extreme ones to two three-phase loads, one of which is sharply variable, and the other is quiet, different topics which, in order to increase the voltage stabilization at a quiet load, it contains a three-phase capacitor bank connected in parallel to the reactor winding connected to a rapidly alternating load.