SU1072018A1 - Stabilized a.c. voltage source - Google Patents

Abstract

STABILIZED SOURCE OF VARIABLE. STRESS, CONTENT. B voltadetavobenny transformer, each. Yes, of the three secondary windings are connected (between the corresponding input and output terminals, and each of the three primary windings is connected to the corresponding input or output power terminals via corresponding thyristor switches, the control electrodes of which are connected to the output of the control unit, the input connected to the output terminals, By the fact that, with the "weight-and-size reduction, the magnetic circuit of the booster transformer is made with three rods on which these windings are placed, and two itnymi shunts location with-i-conjugated between the rods. -Q. .. S

Description

The invention relates to electrical engineering and can be used in the power supply circuits of various electronic equipment.

A device containing a booster transformer, one of the windings of which is connected between the corresponding input and output terminals, is known, the other two windings are connected in series and switched with thyristor keys, one of these windings being shunted with an additional thyristor key C1

Closest to the present invention is a device containing a booster transformer, in which each of the three secondary windings of the additional transformer is connected between the corresponding input and output phase terminals, and each primary winding is connected to the input or output phase outputs via thyristor switches connected to the control unit thyristors associated with output pins 121.,

The disadvantage of the devices is. considerable weight and dimensions. This is due to the fact that the well-known three-phase stabilizers with booster transformers, switched on the primary windings with the help of thyristor switches, are made with independent phase oil pipelines. This is necessary in order to eliminate the short-circuit mode with non-simultaneous switching of primary phases of different phases, which leads to demagnetization of a conventional three-phase magnetic circuit due to the opposite direction of the magnetic fluxes -B rods.

The purpose of the invention is to reduce the weight and size of the device.

The goal is achieved by the fact that in a stabilized AC voltage source there is a booster transformer, each of the three secondary windings of which is connected between the corresponding input and output phase terminals, and each of the three primary windings is connected to the corresponding input or output phase terminals via the corresponding thyristor switches , the control electrodes of which are connected to the output of the control unit of the input connected to the output pins, the booster magnetic circuit ransformatora configured with three rods, which are arranged said coil, and two magnetic shunts arranged between starzh E .H.

Figure 1 and 2 shows the scheme of the stabilized source, respectively, with two and one primary windings in each phase.

The device (Fig. Contains a three-phase booster transformer with a single magnetic core containing the middle rod 1 and the outer rods 2 and 3, each of them contains windings 4-6, with the winding 4 connected to the input and output pins, and the windings 5 and 6 made with a different number of turns and connected in a counter-series. Large in the number of turns of the winding. 6 is made of two sections 7 and 8 connected in series. The overall output of the windings 5 and 6 and the free output of the winding 6 through the thyristor switches 9, 10 and 11, 12 respectively, connect They are not connected to one of the device's input terminals. The free output of the winding 5 is connected to the zero output. The thyristor keys are connected to the control unit 13. The common leads of the winding sections 7 and 8 of all three phases are connected to each other and through the choke 14 to the zero output. the elimination of the flow of surge current in the circuit formed by the winding 5, section 8 and throttle 14, the number of turns of section 8 is determined from the condition that the sum of the total resistances of section 8 and the chokes 14 to the winding impedance 5 are equal. equipped with magnetic shunts 15 and 16 located between the rods 1-3.

The device f.1) works as follows.

At the beginning of each half-cycle of the input voltage, the thyristors 9 and 10 are turned on in each phase, which ensures the operation of the volt-deduction at the output of the device less than the network voltage. With a phase shift adjustable depending on the output voltage, thyristor 11 or 12 is switched on from block 13. When opening thyristor 11 or 12, the direction of the magnetic flux is changed and, therefore, the mode is changed by the voltage boost. The voltage of the winding 6 is applied to the open thyristor 9 and 10 and closes it. Thus, the output voltage of the device is its actual or average value) is maintained equal to the nominal ...,

:. The device of FIG. 2) contains a three-phase volt 1 Overhead transformer. With one magnetic core containing an average rod 17 and extreme rods 18 and 19. On each of the rods there is a secondary winding 20 connected between the input and output terminals of the respective phases A, B and C and the primary winding 21 is connected to the terminals of the device through keys on thyristors 22-29. The thyristor keys are controlled by a block 30 associated with

output pins. The magnetic core is equipped with magnetic shunts 31 and 32 located in the gaps between the rods 17-19.

The device (figure 2) works as follows.

At the beginning of each half-cycle of the input voltage, the thyristors 22, 24 or 23, 25 are turned on in each phase, which ensures that the winding 21 is connected to the mains and the voltage-voltage operation, the output voltage of the stabilized source is less than the mains voltage. With a phase shift that is adjustable depending on the magnitude of the output voltage, the thyristors 27, 29 or 26, 28 are turned on from the block 30. When these thyristors are opened, the direction of the magnetic flux is changed and, therefore,

In addition, the change of the mode to the add-on, all previously operating thyristors at: this is locked. Thus, the voltage of the device (its mean or real value

maintained equal to nominal.

In Fig. 1, thin lines with arrows show the paths of the magnetic fluxes f1-fz at the moment when the fluxes in the rods do not fold. Due to the presence of the magnetic shunts 15 and 16, with any change in the direction of the fluxes in the rods, they can be closed no short circuit mode

5 on the primary windings.

By placing the wraps on the same magnetic core instead of three (the weight and dimensions of the device are reduced. /

FIG. /

678 9 J0n72f U f U

FIG. 2

Claims (1)

A STABILIZED AC VOLTAGE SOURCE, comprising a boost booster transformer, each of the three secondary windings is connected between the respective input and output terminals, and each of the three primary windings is connected to the corresponding input or output phase terminals through the corresponding thyristor switches, the control electrodes of which are connected with the output of the control apple, the input connected to the output terminals, characterized in that, in order to reduce the mass and dimensions, the magnetic circuit of the boost booster ansformatora formed with three rods, which are arranged said coil, and two magnetic shunts location with-i-conjugated between the rods. .... 1 _s & (L s /