MD1755Z - Two-transformer control device - Google Patents

Abstract

The invention relates to the field of electrical engineering, in particular to a two-transformer control device, and can be used, for example, if control is necessary on the high-voltage side of the transformer.The two-transformer control device consists of the first and second transformers. On each rod (1, 2 and 3) of phases A, B and C of the core of the first transformer are placed three windings (4, 7 and 10), (5, 8 and 11) and (6, 9 and 12) of phases A, B and C, respectively, and two control winding units (13 and 16), (14 and 17) and (15 and 18). On each rod (19, 20, 21) of phases A, B and C of the core of the second transformer are placed two windings (22 and 25), (23 and 26) and (24 and 27) of phases A, B and C. Each control winding unit (13, 14, 15, 16, 17 and 18) comprises three sections of windings: the first, second and third with a ratio of the number of turns 1:3:9, as well as eighteen identical electronic keys, at the same time to the control inputs of each key through the corresponding toggle switch is connected a control unit.

Description

The invention relates to the field of electrical engineering, in particular to a regulating device with two transformers, and can be used, for example, when regulation is required on the high voltage side of the transformer.

A transformer device for regulating phase shift is known, which contains a transformer with a primary and a secondary winding, including regulating windings - one in each phase [1].

The disadvantage of this device lies in the limited adjustment possibilities.

This disadvantage is due to the fact that the device does not contain an assortment of adjustment windings, which would allow the adjustment to be carried out within the required limits.

A two-transformer device for phase shift adjustment is also known, which contains two transformers with windings, including adjustment windings [2].

The disadvantage of this device lies in the limited adjustment possibilities.

This disadvantage is due to the fact that the device does not contain an assortment of adjustment windings, which would allow the adjustment to be carried out within the required limits.

The problem that the invention solves consists in creating a device with extended regulation capabilities on the high voltage side of the transformer.

The two-transformer regulating device, according to the invention, eliminates the above-mentioned disadvantages by consisting of the first and second transformers, while the first transformer is made in the following way: on the phase A rod of the transformer core, the first, second and third windings of phase A are placed, as well as the windings of the first and fourth blocks of regulating windings; on the phase B rod of the transformer core, the first, second and third windings of phase B are placed, as well as the windings of the second and fifth blocks of regulating windings; on the phase C rod of the transformer core, the first, second and third windings of phase C are placed, as well as the windings of the third and sixth blocks of regulating windings; the second transformer is made in the following way: on the phase A rod of the transformer core the fourth and fifth windings of phase A are placed, on the phase B rod of the transformer core the fourth and fifth windings of phase B are placed, on the phase C rod of the transformer core the fourth and fifth windings of phase C are placed; at the same time the nine windings of the first transformer form a ring-type circuit, being connected in the following way: the third and second windings of phase A are connected in phase, and the first winding of phase C is connected in antiphase with respect to them; in relation to the last one the third and second windings of phase B are connected in antiphase, connected to each other in phase; the first winding of phase A is connected in antiphase with respect to these; in antiphase with respect to the last are connected the third and second windings of phase C, connected to each other in phase; in antiphase with respect to these is connected the first winding of phase B, which is connected in antiphase with respect to the third winding of phase A, which closes the ring-type circuit; to the said ring-type circuit are connected the following: the fourth winding of phase A is connected with its end to the connection point of the second and third windings of phase A, at the same time their connection point represents the input of phase A, and the beginning of the fourth winding of phase A represents the output of phase A; the fourth winding of phase B is connected with its end to the connection point of the second and third windings of phase B, at the same time their connection point represents the input of phase B, and the beginning of the fourth winding of phase B represents the output of phase B; the fourth winding of phase C is connected with its end to the connection point of the second and third windings of phase C, at the same time their connection point represents the input of phase C, and the beginning of the fourth winding of phase C represents the output of phase C; the ends of the fifth windings of phases A, B and C are connected together and to an electrical neutral; the windings of the fourth, fifth and sixth blocks of regulating windings are connected in phase in a ring circuit; to the connection point of the windings of the fifth and sixth blocks of regulating windings the output end of the windings of the first block of regulating windings is connected, to the beginning of which the beginning of the fifth winding of phase A is connected; to the connection point of the windings of the fourth and sixth blocks of regulating windings is connected the output end of the windings of the second block of regulating windings, to the beginning of which the beginning of the fifth winding of phase B is connected; to the connection point of the windings of the fifth and fourth blocks of regulating windings is connected the output end of the windings of the third block of regulating windings, to the beginning of which the beginning of the fifth winding of phase C is connected; each block of regulating windings contains three winding sections: the first, the second and the third with the ratio of the number of turns 1:3:9, as well as eighteen identical electronic keys, to the control inputs of each key being connected by a corresponding switch one control block, at the same time the beginning of the first winding section is connected by the first key to the input of the regulating winding block, and the end of the third winding section is connected by the sixteenth key to the output of the regulating winding block; the beginning of the first winding section by the fourth key and its end by the fifth key are connected to the end of the third winding section; the beginning of the second winding section by the sixth key and its end by the seventh key are connected to the end of the third winding section; the beginning of the third winding section through the eighth key is connected to the end of the second winding section and through the ninth key - to the beginning of the second winding section; the beginning of the third winding section through the tenth key is connected to the end of the first winding section and through the eleventh key - to the beginning of the first winding section; the end of the second winding section through the twelfth key is connected to the end of the first winding section and through the thirteenth key is connected to its beginning; the beginning of the second winding section through the fourteenth key is connected to the end of the first winding section and through the fifteenth key is connected to its beginning; the end of the first winding section through the second key and the end of the second winding section through the third key are connected to the input of the regulating winding block, and the beginning of the second winding section through the seventeenth key and the beginning of the third winding section through the eighteenth key are connected to the output of the regulating winding block.

This combination of features provides an expansion of the device's adjustment capabilities, since adjustment can be performed separately for each phase, both by amplitude and by phase (nine windings of the first transformer form a ring-type circuit; the fourth winding of phase A is connected with its end to the connection point of the second and third windings of phase A, and this connection point represents the input of phase A, at the same time the beginning of the fourth winding of phase A represents the output of phase A; the fourth winding of phase B is connected with its end to the connection point of the second and third windings of phase B, and this connection point represents the input of phase B, at the same time the beginning of the fourth winding of phase B represents the output of phase B; the fourth winding of phase C is connected with its end its at the connection point of the second and third windings of phase C, and this connection point represents the input of phase C; the beginning of the fourth winding of phase C represents the output of phase C; in addition, the windings of the fourth, fifth and sixth blocks of regulating windings are connected in phase in a ring-type circuit, to which the windings of the first, second and third blocks of regulating windings are connected). This allows to obtain regulating voltages, the vectors of which are located at right angles to each other, which makes it possible to expand the possibilities of regulation. In addition, each fourth winding of each phase, located on the rods of the second transformer, are connected between the corresponding inputs and outputs of the claimed device, which allows regulation to be performed on the high voltage side of the transformer, thereby expanding the regulation possibilities, i.e. solving the problem of the invention.

The invention is explained by the drawings in Fig. 1-3, which represent:

- Fig. 1, electrical diagram of the claimed device in combination with the diagram of the placement of the windings on the rods of the transformer cores (without specifying the beginnings and ends of the windings);

- Fig. 2a and 2b, electrical diagram of the claimed device with specification of the beginnings and ends of the windings;

- Fig. 3, block diagram of the regulating windings.

List of reference signs in Fig. 1 and 2: 1 - phase A rod of the first transformer core; 2 - phase B rod of the first transformer core; 3 - phase C rod of the first transformer core; 4 - first winding of phase A; 5 - first winding of phase В; 6 - first winding of phase С; 7 - second winding of phase A; 8 - second winding of phase В; 9 - second winding of phase С; 10 - third winding of phase А; 11 - third winding of phase В; 12 - third winding of phase С; 13 - first block of regulating windings; 14 - second block of regulating windings; 15 - the third block of regulating windings; 16 - the fourth block of regulating windings; 17 - the fifth block of regulating windings; 18 - the sixth block of regulating windings; 19 - the rod of phase A of the core of the second transformer; 20 - the rod of phase B of the core of the second transformer; 21 - the rod of phase C of the core of the second transformer; 22 - the fourth winding of phase A; 23 - the fourth winding of phase В; 24 - the fourth winding of phase С; 25 - the fifth winding of phase А; 26 - the fifth winding of phase В; 27 - the fifth winding of phase С. The inputs of this device are marked by A1, B1 and C1, and the outputs - by A2, B2 and C2. For the transformer cores, only those parts on which the windings are located are shown. The electrical harness is not marked.

List of reference signs in Fig. 3: 28 - part of the transformer core rod of the phase, on which the winding sections of the regulating winding block are located; 29 - the first winding section, 30 - the second winding section; 31 - the third winding section; 32 - the first key; 33 - the second key; 34 - the third key; 35 - the fourth key; 36 - the fifth key; 37 - the sixth key; 38 - the seventh key; 39 - the eighth key; 40 - the ninth key; 41 - the tenth key; 42 - the eleventh key; 43 - the twelfth key; 44 - the thirteenth key; 45 - the fourteenth key; 46 - the fifteenth key; 47 - the sixteenth key; 48 - the seventeenth key; 49 - the eighteenth key; 50 - the first switch; 51 - the second switch; 52 - the third switch; 53 - the fourth switch; 54 - the fifth switch; 55 - the sixth switch; 56 - the seventh switch; 57 - the eighth switch; 58 - the ninth switch; 59 - the tenth switch; 60 - the eleventh switch; 61 - the twelfth switch; 62 - the thirteenth switch; 63 - the fourteenth switch; 64 - the fifteenth switch; 65 - the sixteenth switch; 66 - the seventeenth switch; 67 - the eighteenth switch; 68 - the first control block; 69 - the second control block; 70 - the third control block; 71 - the fourth control block; 72 - the fifth control block; 73 - the sixth control block; 74 - the seventh control block; 75 - the eighth control block; 76 - the ninth control block; 77 - the tenth control block; 78 - the eleventh control block; 79 - the twelfth control block; 80 - the thirteenth control block; 81 - the fourteenth control block; 82 - the fifteenth control block; 83 - the sixteenth control block; 84 - the seventeenth control block; 85 - the eighteenth control block; 86 - electrical harness. Buses D1 and D2 represent the input and output of the control winding block, respectively.

The device shown in Fig. 1 and 2 consists of the following nodes and links:

On the rod 1 of the phase A of the core of the first transformer are located the first 4, the second 7 and the third 10 windings of the phase A, as well as the windings of the first 13 and the fourth 16 blocks of regulating windings. On the rod 2 of the phase B of the core of the first transformer are located the first 5, the second 8 and the third 11 windings of the phase B, as well as the windings of the second 14 and the fifth 17 blocks of regulating windings. On the rod 3 of the phase C of the core of the first transformer are located the first 6, the second 9 and the third 12 windings of the phase C, as well as the windings of the third 15 and the sixth 18 blocks of regulating windings.

Nine windings of phases A, B and C of the first transformer form a ring-type circuit in the following sequence: the third 10 and second 7 windings of phase A are connected in phase (the end of one winding is connected to the beginning of the other winding), and the first winding 6 of phase C in relation to them is connected in antiphase (the beginning of one winding is connected to the beginning of another winding); in relation to this the third 11 and second 8 windings of phase B are connected in antiphase, and between themselves they are connected in phase; in antiphase in relation to them is connected the first winding 4 of phase A and in antiphase in relation to it are connected the third 12 and second 9 windings of phase C, connected to each other in phase; In antiphase with respect to these, the first winding 5 of phase B is connected, which is connected in antiphase to the third winding 10 of phase A, which also closes the ring circuit.

In the so-called ring-type circuit, the fourth winding 22 of phase A is connected with its end to the connection point of the second 7 and third 10 windings of phase A, and this connection point is the input of phase A; the beginning of the fourth winding 22 of phase A is the output of phase A. Similarly, the fourth winding 23 of phase B is connected with its end to the connection point of the second 8 and the third 11 windings of phase B, and this connection point is the input of phase B, while the beginning of the fourth winding 23 of phase B is the output of phase B. Also, the fourth winding 24 of phase C is connected with its end to the connection point of the second 9 and the third 12 windings of phase C, and this connection point is the input of phase C. The fifth winding 25 of phase A, the fifth winding 26 of phase B and the fifth winding 27 of phase C are connected by their ends together and to an electrical neutral.

The windings of the fourth 16, fifth 17 and sixth 18 regulation winding blocks are connected in phase in a ring-type circuit. At the connection point of the fifth 17 and sixth 18 blocks of regulating windings the end of the windings of the first block of regulating windings 13 is connected, to the beginning of which the beginning of the fifth winding 25 of phase A is connected. Similarly, at the connection point of the windings of the fourth 16 and sixth 17 blocks of regulating windings the end of the windings of the second block 14 of regulating windings is connected, to the beginning of which the beginning of the fifth winding 26 of phase B is connected. Also, at the connection point of the windings of the fourth 16 and fifth 17 blocks of regulating windings the end of the windings of the third block 15 of regulating windings is connected, to the beginning of which the beginning of the fifth winding is connected 27 of phase C.

The control winding block (fig. 3) consists of the following nodes and connections:

On that core rod of the first transformer (conventionally designated by the reference sign 28), where the windings of this block of regulating windings are located, there are the first 29, the second 30 and the third 31 winding sections with the ratio of the number of turns 1:3:9. This block also includes eighteen (from the first to the eighteenth) identical electronic keys, the reference signs of which are, respectively, 32…49. They are made as bidirectional in order to have the possibility of working on alternating current. To the control inputs of each key through the corresponding switch (reference signs 50…67) the corresponding control block (reference signs 68…85) is connected. The beginning of the first winding section 29 through the first key 32 is connected to the input of the regulation winding block: bus D1, and the end of the third winding section 31 through the sixteenth key 47 is connected to the output of the regulation winding block: bus D2. The beginning of the first winding section 29 through the fourth key 35 and its end through the fifth key 36 are connected to the end of the third winding section 31. The beginning of the second winding section 30 through the sixth key 37 and its end through the seventh key 38 are connected to the end of the third winding section 31. The beginning of the third winding section 31 through the eighth key 39 is connected to the end of the second winding section 30 and through the ninth key 40 - to the beginning of the second winding section 30. The beginning of the third winding section 31 through the tenth key 41 is connected to the end of the first winding section 29, and through the eleventh key 42 - to the beginning of the first winding section 29. The end of the second winding section 30 through the twelfth key 43 is connected to the end of the first winding section 29, and through the thirteenth key 44 is connected to its beginning. The beginning of the second winding section 30 through the fourteenth key 45 is connected to the end of the first winding section 29, and through the fifteenth key 46 is connected to the beginning of the first winding section 29. The end of the first winding section 29 through the second key 33 and the end of the second winding section 30 through the third key 34 are connected to the input D1 of the adjustment winding block, and the beginning of the second winding section 30 through the seventeenth key 48 and the beginning of the third winding section 31 through the eighteenth key 49 are connected to the output D2 of the adjustment winding block.

The device shown in Fig. 1 and 2 works as follows

The input voltage from a three-phase power supply is supplied to the inputs of this device, i.e. to the connection points of the windings of the first and second transformers (for phase A these are windings 10 and 7 on the first rod 1 of the core of the first transformer and the fourth winding 22 of this phase on the first rod 19 of the core of the second transformer; for phase B these are windings 11 and 8 on the second rod 2 of the core of the first transformer and the fourth winding 23 on the second rod 20 of the core of the second transformer; for phase C these are windings 12 and 9 on the third rod 3 of the core of the first transformer and the fourth winding 24 on the third rod 21 of the core of the second transformer).

The currents between the phases flow through the triplet windings: between phases A and B - the second winding 7 of phase A, the first winding 6 of phase C and the third winding 11 of phase B; between phases B and C - the second winding 8 of phase B, the first winding 4 of phase A and the third winding 12 of phase C; between phases C and A - the second winding 9 of phase C, the first winding 5 of phase B and the third winding 10 of phase A.

Consequently, on the windings of all six blocks of regulating windings (for phase A - the first 13 and the fourth 16; for phase B - the second 14 and the fifth 17; for phase C - the third 15 and the sixth 18) voltages appear, the values of which correspond to the transformation coefficients, i.e. the number of turns in their windings.

From these voltages the operator in each block of regulating windings separately forms the output voltage of this block. In fig. 3 the block of regulating windings contains three separate windings with voltage values equal to Ui, 3Ui and 9Ui, and their combinations make it possible to obtain any voltage value in the range from Ui to 13Ui, for example, 7Ui 9Ui - 3Ui +Ui. Details are described in the operation of the block of regulating windings.

The output voltage in each phase is represented by the sum of the voltages: the voltage of this phase U and the voltage generated by the circuit in the blocks of regulating windings of other phases. The currents in this circuit, which circulate through the fifth windings of phases A 25, B 26 and C 27 and through the fourth windings of phases A 22, B 23 and C 24 located on the rods of the same second transformer, form voltages that add up to the input voltages of the respective phases. The voltages are summed up vectorially, namely on the high-voltage side of the transformer and in each phase separately. This allows the output voltage to be regulated in each phase separately, both in relation to the phase shift and in relation to the voltage, thus solving the problem of the invention - expanding the possibilities of regulation on the high-voltage side of the transformer.

The regulating winding block (fig. 3) operates as follows:

In the initial state all control blocks continuously generate signals, which are necessary for opening the electronic keys; all switches are off, so that all electronic keys are closed. The magnetic flux from the transformer core rods excites voltages in the first 29, the second 30 and the third 31 sections of the windings, which are located on this side of the rod 28. The ratio of the voltage values between them is 1:3:9. This makes it possible to obtain the necessary voltage values in steps equal to the voltage on the first section of the windings Ui, varying from Ui to 13Ui, both in phase and antiphase with respect to the voltage on the secondary winding of this phase. The combination of starting the winding sections is carried out by the corresponding electronic keys, which receive opening commands from the control blocks through the necessary switches, turned on by the operator. For example, to obtain from this block of regulating windings a phase voltage Ui, it is necessary to turn on the first switch 50, through which the signal from the first control block 68 will open the first electronic key 32; turn on the fifth switch 54, through which the signal from the fifth control block 72 will open the fifth electronic key 36; and also the switching on of the sixteenth switch 65, whereby the signal from the sixteenth control block 83 will open the sixteenth electronic key 47. To obtain other voltage values, which increase or decrease the voltage at the output of a given phase, the operator uses pre-obtained combinations of switching on the switches, indicated in tables 1 and 2. This is due to the fact that the voltage vectors of other phases are located at angles of 120° and 240° to the voltage vector of the given phase.

Table 1

The value of the voltage on the D bus and the method of its formation. The numbers of switches to be turned on and their reference signs in fig. 2 Ui = Ui (first winding section 29) first 50, fifth 54 and sixteenth 65 2 Ui = (3-1) Ui second 51, seventh 56, fifteenth 64 and sixteenth 65 3 Ui = 3Ui (second winding section 30) first 50, seventh 56, fifteenth 64 and sixteenth 65 4 Ui = (3+1) Ui first 50, seventh 56, fourteenth 63 and sixteenth 65 5 Ui =(9-3-1) Ui third 52, eleventh 60, fourteenth 63 and sixteenth 65 6 Ui = (9-3) Ui third 52, ninth 58 and sixteenth 65 7 Ui = (9-3+1) Ui first 50, ninth 58, twelfth 61 and sixteenth 65 8 Ui = (9-1) Ui second 51, eleventh 60 and sixteenth 65 9 Ui = 9Ui (third winding section 31) first 50, eleventh 60 and sixteenth 65 10 Ui = (9+1) Ui first 50, tenth 59 and sixteenth 65 11 Ui =(9+3-1) Ui the second 51, the eighth 57, the fifteenth 64 and the sixteenth 65 12 Ui = (9+3) Ui the first 50, the eighth 57, the fifteenth 64 and the sixteenth 65 13 Ui = (9+3+1) Ui the first 50, the eighth 57, the fourteenth 63 and the sixteenth 65

The switch numbers, indicated in tables 1 and 2, allow the winding sections to be connected through the corresponding switches in the required circuit.

The keys are opened by signals from the control block as follows:

through the first switch 50 the first control block 68 opens the first key 32;

through the second switch 51 the second control block 69 opens the second key 33;

through the third switch 52 the third control block 70 opens the third key 34;

through the fourth switch 53 the fourth control block 71 opens the fourth key 35;

through the fifth switch 54 the fifth control block 72 opens the fifth key 36;

through the sixth switch 55 the sixth control block 73 opens the sixth key 37;

through the seventh switch 56 the seventh control block 74 opens the seventh key 38;

through the eighth switch 57 the eighth control block 75 opens the eighth key 39;

through the ninth switch 58 the ninth control block 76 opens the ninth key 40;

through the tenth switch 59 the tenth control block 77 opens the tenth key 41;

through the eleventh switch 60 the eleventh control block 78 opens the eleventh key 42;

through the twelfth switch 61 the twelfth control block 79 opens the twelfth key 43;

through the thirteenth switch 62 the thirteenth control block 80 opens the thirteenth key 44;

through the fourteenth switch 63 the fourteenth control block 81 opens the fourteenth key 45;

through the fifteenth switch 64 the fifteenth control block 82 opens the fifteenth key 46;

through the sixteenth switch 65 the sixteenth control block 83 opens the sixteenth key 47;

through the seventeenth switch 66 the seventeenth control block 84 opens the seventeenth key 48;

through the eighteenth switch 67 the eighteenth control block 85 opens the eighteenth key 49.

Table 2

The value of the voltage on the D bus and the method of its formation. The numbers of switches to be turned on and their reference signs in fig. 2 -Ui = -Ui (reverse connection of the first winding section 29) the second 51, the fourth 53 and the sixteenth 65 -2 Ui = -(3-1) Ui the third 52, the fifth 54, the fifteenth 64 and the sixteenth 65 -3 Ui = -3Ui (reverse connection of the second winding section 30) the third 52 and the seventeenth 66 -4 Ui = -(3+1) Ui the third 52, the fourth 53, the fourteenth 63 and the sixteenth 65 -5 Ui = -(9-3-1) Ui the first 50, the seventh 56, the fourteenth 63 and the eighteenth 67 -6 Ui = -(9-3) Ui first 50, the seventh 56, the fifteenth 64 and the eighteenth 67 -7 Ui = -(9-3+1) Ui second 51, the seventh 56, the fifteenth 64 and the eighteenth 67 -8 Ui = -(9-1) Ui first 50, the fifth 54 and the eighteenth 67 -9 Ui = -9Ui (reverse connection of the third winding section 31) first 50, the fourth 53 and the eighteenth 67 -10 Ui = -(9+1) Ui second 51, the fourth 53 and eighteenth 67 -11 Ui = -(9+3-1) Ui first 50, sixth 55, twelfth 61 and eighteenth 67 -12 Ui = -(9+3) Ui third 52, sixth 55 and eighteenth 67 -13 Ui = -(9+3+1) Ui second 51, sixth 55, thirteenth 62 and eighteenth 67

Thus, in the claimed device it is possible to separately set the required voltage and phase shift in each phase, which achieves the expansion of the adjustment possibilities on the high voltage side of the transformer, i.e. the problem of the invention is solved.

1. MD 4397 C1 2016.08.31

2. MD 3823 G2 2009.09.30

Claims (1)

Two-transformer regulating device, consisting of the first and second transformers, the first transformer being made as follows: on the phase A rod of the transformer core, the first, second and third windings of phase A are placed, as well as the windings of the first and fourth blocks of regulating windings; on the phase B rod of the transformer core, the first, second and third windings of phase B are placed, as well as the windings of the second and fifth blocks of regulating windings; on the phase C rod of the transformer core, the first, second and third windings of phase C are placed, as well as the windings of the third and sixth blocks of regulating windings; the second transformer is made in the following way: on the phase A rod of the transformer core the fourth and fifth windings of phase A are placed, on the phase B rod of the transformer core the fourth and fifth windings of phase B are placed, on the phase C rod of the transformer core the fourth and fifth windings of phase C are placed; at the same time the nine windings of the first transformer form a ring-type circuit, being connected in the following way: the third and second windings of phase A are connected in phase, and the first winding of phase C is connected in antiphase with respect to them; in relation to the last one the third and second windings of phase B are connected in antiphase, connected to each other in phase; the first winding of phase A is connected in antiphase with respect to these; in antiphase with respect to the last are connected the third and second windings of phase C, connected to each other in phase; in antiphase with respect to these is connected the first winding of phase B, which is connected in antiphase with respect to the third winding of phase A, which closes the ring-type circuit; to the said ring-type circuit are connected the following: the fourth winding of phase A is connected with its end to the connection point of the second and third windings of phase A, at the same time their connection point represents the input of phase A, and the beginning of the fourth winding of phase A represents the output of phase A; the fourth winding of phase B is connected with its end to the connection point of the second and third windings of phase B, at the same time their connection point represents the input of phase B, and the beginning of the fourth winding of phase B represents the output of phase B; the fourth winding of phase C is connected with its end to the connection point of the second and third windings of phase C, at the same time their connection point represents the input of phase C, and the beginning of the fourth winding of phase C represents the output of phase C; the ends of the fifth windings of phases A, B and C are connected together and to an electrical neutral; the windings of the fourth, fifth and sixth blocks of regulating windings are connected in phase in a ring circuit; to the connection point of the windings of the fifth and sixth blocks of regulating windings the output end of the windings of the first block of regulating windings is connected, to the beginning of which the beginning of the fifth winding of phase A is connected; to the connection point of the windings of the fourth and sixth blocks of regulating windings is connected the output end of the windings of the second block of regulating windings, to the beginning of which the beginning of the fifth winding of phase B is connected; to the connection point of the windings of the fifth and fourth blocks of regulating windings is connected the output end of the windings of the third block of regulating windings, to the beginning of which the beginning of the fifth winding of phase C is connected; each block of regulating windings contains three winding sections: the first, the second and the third with the ratio of the number of turns 1:3:9, as well as eighteen identical electronic keys, to the control inputs of each key being connected by a corresponding switch one control block, at the same time the beginning of the first winding section is connected by the first key to the input of the regulating winding block, and the end of the third winding section is connected by the sixteenth key to the output of the regulating winding block; the beginning of the first winding section by the fourth key and its end by the fifth key are connected to the end of the third winding section; the beginning of the second winding section by the sixth key and its end by the seventh key are connected to the end of the third winding section; the beginning of the third winding section through the eighth key is connected to the end of the second winding section and through the ninth key - to the beginning of the second winding section; the beginning of the third winding section through the tenth key is connected to the end of the first winding section and through the eleventh key - to the beginning of the first winding section; the end of the second winding section through the twelfth key is connected to the end of the first winding section and through the thirteenth key is connected to its beginning; the beginning of the second winding section through the fourteenth key is connected to the end of the first winding section and through the fifteenth key is connected to its beginning; the end of the first winding section through the second key and the end of the second winding section through the third key are connected to the input of the regulating winding block, and the beginning of the second winding section through the seventeenth key and the beginning of the third winding section through the eighteenth key are connected to the output of the regulating winding block.