RU33260U1 - Resistance relay - Google Patents

Abstract

A resistance relay containing an actuator, a first voltage transformer with a primary winding, the input terminals of which are input voltage supply terminals, and a first secondary winding, a current transformer with a first and second primary windings, whose input terminals are, respectively, supply terminals of the first and second input currents, and secondary windings, resistors from first to eighteenth, first and second zener diodes, first, second, third and fourth capacitors, characterized in that the second and the third secondary windings of the first voltage transformer, the second voltage transformer with the first and second primary and first and second secondary windings, the first and second operational amplifiers, the first, second and third rectifier blocks, the first, second and third switches, the fifth, sixth, seventh and eighth capacitors, first, second, third, fourth, fifth, sixth, seventh and eighth diodes, first, second and third transistors, inductor, eighteenth, nineteenth, twentieth and twenty-first resistors, and also terminals zero negative and positive potentials and power terminals of positive and negative potential, while the first and second terminals of the first resistor are connected, respectively, to the first and second terminals of the first secondary winding of the current transformer, the first and second terminals of the second resistor are connected, respectively, to the first and the second terminals of the second secondary winding of the current transformer, the first terminal of the third resistor is connected to the first input terminal of the first rectifier unit and through the second switch is connected to

Description

Resistance relay

The utility model relates to electrical engineering and can be used as a resistance relay, operating on the principle of comparing absolute values of q, w values, which are a function of voltage Uac and current difference 1a-1s.

A device is known that contains a series-connected clock generator, a binary counter, a decoder, a pulse shaper and an actuator made in the form of a transistor 1.

The disadvantage of this device is the relatively narrow functionality that does not allow its use as a resistance relay.

The closest in technical essence to the proposed one is a device 2 containing a voltage transformer with a primary winding, the input terminals of which are input voltage input terminals, and a secondary winding with a regulator of the number of turns, a current transformer with the first and second primary windings, the input terminals of which are, respectively, the terminals of the supply of the first and second input currents, and the secondary winding, a common terminal, an actuator, a first resistor, the first terminal of which is connected to the first terminal of the secondary winding is a current transformer, a second resistor, the first terminal of which is connected to the second terminal of the first resistor, with a common terminal, and the second terminal is connected to the second terminal of the secondary winding of the current transformer, the third resistor, the first and second terminals of which are connected to the first terminal of the secondary winding voltage transformer, and the third terminal is connected to a common terminal.

IPC N 01 N 47/18

the fourth and fifth resistor, the first terminals of which are connected to the first terminal of the secondary winding of the current transformer, the first and second capacitors, the first terminals of which are connected to the second terminals of the fourth and fifth resistors, respectively, the sixth, seventh, eighth and ninth resistors, the first terminals of which are connected to the second terminal of the secondary winding of the current transformer, the third capacitor, the first terminal of which is connected to the second terminal of the seventh resistor, the fourth capacitor, the first terminal of which is connected to the second Lemma of the eighth resistor, a make contact, connected in parallel with the ninth resistor, a tenth resistor, a mismatch pulse generator, the output of which is connected to the input of the actuating element, the first, second, third and fourth adders, the first inputs of which are connected to a common terminal, and the outputs are connected, respectively , with the first, second, third and fourth inputs of the mismatch pulse shaper, the eleventh, twelfth, thirteenth and fourteenth resistors, the first terminals of which are connected to the first terminal in toric voltage transformer windings, fifteenth, sixteenth seventeenth and eighteenth resistors and first, second, third and fourth zener diodes, while the second terminal of the eleventh resistor is connected to the second terminals of the first capacitor and first adder and to the first terminals of the fifteenth resistor and first zener diode, the second terminal which is connected to the output terminal of the first adder, the second terminal of the twelfth resistor is connected to the second terminals of the second capacitor and the second adder and to the first the terminals of the sixteenth resistor and the second zener diode, the second terminal of which is connected to the output terminal of the second adder, the second terminal of the thirteenth resistor is connected to the second terminals of the second capacitor and second adder and the first terminals of the seventeenth resistor and third zener diode, the second terminal of which is connected to the output terminal

the third adder, the second terminal of the fourteenth resistor is connected to the second terminals of the fourth capacitor and the fourth adder and to the first terminals of the eighteenth resistor and the fourth zener diode, the second terminal of which is connected to the output terminal of the fourth.

The disadvantage of the closest technical solution is the relatively low accuracy due to the insufficient amount of means for its adjustment.

The technical result of the invention is to increase the accuracy.

This technical result is achieved by the fact that the device containing; its actuating element, a first voltage transformer with a primary winding, the input terminals of which are input voltage input terminals, and a first secondary winding, a current transformer with a first and second primary windings, whose input terminals are , respectively, with the supply terminals of the first and second input currents, and secondary windings, resistors from the first to the eighteenth, the first and second zener diodes, the first, second, third and fourth capacitors ators, characterized in that, the second and third secondary windings of the first voltage transformer are introduced, the second voltage transformer with the first and second primary and first and second secondary windings, the first and second operational amplifiers, the first, second and third rectifier blocks, the first, second and third switches, fifth, sixth, seventh and eighth capacitors, first, second, third, fourth, fifth, sixth, seventh and eighth diodes, first, second and third transistors, inductor, eighteenth, nineteenth, twentieth and twod amb first resistors and terminals zero, negative and positive potential and the power supply terminals of the positive and negative potential, wherein the first and second terminals of the first resistor are connected, respectively, to first and second terminals of the first secondary current of the transformer winding, the first and second terminals of the second

resistors are connected, respectively, to the nerve and second terminals of the second secondary winding of the current transformer, the nerve terminal of the third resistor is connected to the first input terminal of the nerve rectifier unit and through the second switch is connected to the second terminal of the third resistor and to the second terminal of the first secondary winding of the current transformer, the first terminal the fourth resistor is connected to the first input terminal of the second rectifier unit, and the second terminal is connected to the first terminal of the second resistor, the second terminal of which is single with the second input terminal of the second rectifier unit, the first terminal of the fifth resistor is connected to the first output terminal of the first rectifier unit, with the anode of the first diode, with the cathode of the second diode, with the first terminal of the seventh resistor, with the terminal of zero potential, with the first terminal of the thirteenth resistor, s the anode of the third diode, with the cathode of the fourth diode, with the first terminals of the second capacitor, third capacitor, fourth capacitor, tenth resistor, and through the third switch is connected to the first terminal nine of the resistor, with the second terminal of the seventh resistor, with the cathode of the first diode, with the anode of the second diode, as well as with the first terminals of the inductor and the second capacitor, the second terminals of which are connected to the first output terminal of the second rectifier unit and to the first terminal of the sixth resistor, the second terminal of which connected to the second terminal of the fifth resistor and to the second output terminals of the first and second rectifier blocks, the second terminal of the ninth resistor is connected to the first input terminal of the first operational amplifier, the second input whose bottom terminal is connected to the first terminal of the eighth resistor and to the second terminal of the tenth resistor, the second power terminal of the first operational amplifier is connected to the second terminal of the eighth resistor, with the second terminal of the third capacitor, with the terminal of positive potential, with the cathode of the sixth diode and with the first terminal of the actuator , the first power terminal of the first operational amplifier is connected to the negative terminal

potential, with the first terminal of the fifth capacitor, with the emitter of the transistor and with the first terminal of the sixteenth resistor, the second terminal of which is connected to the base of the transistor and the first terminal of the fifteenth resistor, the second terminal of which is connected to the cathode of the fifth diode, the output terminal of the first operational amplifier is connected to the first terminal the eleventh resistor, the second terminal of which is connected to the second terminal of the second capacitor, with the cathode of the third diode, with the anode of the fourth diode and with the first terminal of the twelfth resistor, the second terminal of which is connected to the first input terminal of the second operational amplifier, the second input terminal of which is connected to the second terminals of the fifth capacitor and thirteenth resistor and the first terminal of the fourteenth resistor, the second power terminal of the second operational amplifier is connected to the positive potential terminal, the first power terminal of the second operational amplifier connected to the emitter of the transistor, the collector of which is connected to the anode of the sixth diode, the output terminal of the second operational amplifier with it is single with the second terminal of the fourteenth resistor and with the anode of the fifth diode, the first and second secondary windings of the voltage transformer are sectioned with the ability to control the number of turns, the first, second and third secondary windings of the voltage transformer are connected in series with each other, the extreme section of the first secondary winding of the voltage transformer is not connected with the second secondary winding of the voltage transformer, is shunted by the seventeenth resistor, which is made variable and its regulation the output terminal is connected to the second input terminal of the first rectifier unit and, through the first switch, is connected to the combined terminals of the second and third secondary windings of the voltage transformer, the other terminal of the third secondary winding of the voltage transformer is connected to the first terminal of the first resistor, the first terminals of the eighteenth and nineteenth resistors are connected, respectively with power terminal

(31Sh)

positive potential and with a negative potential power terminal, the cathode of the first zener diode is connected to the anode of the second zener diode, the anode of the seventh diode is connected to the second terminal of the eighteenth resistor, and the cathode is connected to the cathode. the second zener diode, with emitters of the second and third transistors, and with the first terminals of the twentieth resistor and the sixth capacitor, the cathode of the eighth diode is connected to the second terminal of the nineteenth resistor, and the anode is connected to the anode of the first stilitron, with the first terminal of the twenty-first resistor and with the conclusion of the midpoint of the first the input winding of the second transformer, one extreme terminal of which is connected to the collector of the third transistor, and the other extreme terminal is connected to the collector of the second transistor, the base of which is connected to about the midpoint of the second input winding of the second voltage transformer, one extreme terminal of which is connected to the second terminals of the twentieth and twenty-first resistors and the sixth capacitor, and the other extreme terminal

connected to the base of the third transistor, the first input terminal of the third

rectifier block is connected to the first terminal of the first output winding of the second voltage transformer, the second terminal of which is connected to the first terminal of the second output winding of the second voltage transformer, to the first terminals of the seventh and eighth capacitors and to the terminal of zero potential, the second input terminal of the third rectifier block is connected to the second terminal of the second the output winding of the second voltage transformer, the first output terminal of which is connected to the second terminal of the eighth capacitor and to the terminal positive potential, and the second output terminal of the third rectifier unit is connected to the second terminal of the seventh capacitor and to the negative potential terminal.

The drawing shows an electrical block diagram of a resistance relay.

The resistance relay contains an actuator 1 in the form of parallel connected first 1-1 and second 1-2 relay windings, a first voltage transformer 2 with a primary winding 2-1, input terminals 31, 3-2 of which are input voltage input terminals, and the first 2 -2-1, second 2-2-2 and third 2-2-3 secondary windings, regulator 4 of the number of turns, the first terminal of which is connected to the first terminal of the first 2-2-1 secondary winding of the first voltage transformer 2, current transformer 5 with the first 5-1-1 and second 5-1-2 primary windings, input terminals 6-1, 6-2 and 7-1.7-2 ko These are, respectively, the supply terminals of the first and second input currents, and the first 5-2-1 and second 5-2-2 secondary windings, resistors 6-22 from first to seventeenth, first 23, second 24, third 25, fourth 26 and fifth 27 capacitors, first 28 and second 29 operational amplifiers, first 30 and second 31 rectifier blocks, first 32, second 33 and third 34 switches, first 35, second 36, third 37, fourth 38, fifth 39 and sixth 40 diodes, the first transistor 41, inductor 42, terminals zero 43, negative 44 and positive 45 potentials, the eighteenth resistor 46, d nineteenth resistor 47, positive potential power terminal 48, power terminal 49

negative potential, the first 50-1 and second 50-2 zener diodes, seventh diode 51, eighth diode 52, second 53 and third 54 transistors, twentieth 55 and twenty first 56 resistors, sixth capacitor 57, second voltage transformer 58 with the first 59-1 and the second 59-2 primary windings and with the first 60-1 and second 60-2 secondary windings, the third rectifier block 61, the seventh 62 and the eighth 63 capacitors.

Moreover, these elements are connected as follows. The first and second terminals of the first resistor 6 are connected, respectively, with the first and second terminals of the first secondary winding 5-2-1 of the current transformer 5, the first and second terminals of the second resistor 7 are connected, respectively, with the first and second terminals of the second secondary winding 5-2 -2 transformers

5 current, the first terminal of the third resistor 8 is connected to the first input terminal of the first rectifier unit 30 and through the second switch 33 is connected to the second terminal of the third resistor 8 and to the second terminal of the first secondary winding 5-2-1 of the current transformer 5, the first terminal of the fourth resistor 9 , which is variable, is connected to the first input terminal of the second rectifier unit 31, and the third terminal is connected to the first terminal of the second resistor 7, the second terminal of which is connected to the second input terminal of the second rectifier unit ka 31, the first terminal of the fifth resistor 10 is connected to the first output terminal of the first rectifier block 30, with the anode of the first diode 35, with the cathode of the second diode 36, with the first terminal of the seventh resistor 12, with the zero potential terminal 43, with the first terminal of the thirteenth resistor 18, with the anode of the third diode 37, with the cathode of the fourth diode 38, with the first terminals of the second capacitor 24, the third capacitor 25, the fourth capacitor 26, the tenth resistor 15, and through the third switch 34 connected to the first terminal of the ninth resistor 14, with the second terminal the seventh resistor 12, with the cathode of the first diode 35, with the anode of the second diode 36, as well as with the first terminals of the inductor 42 and the second capacitor 23, the second terminals of which are connected to the first output terminal of the second rectifier unit 31 and to the first terminal of the sixth resistor 11, the second terminal which is connected to the second terminal of the fifth resistor 10 and to the second output terminals of the first 30 and second 31 rectifier units, the second terminal of the ninth 14 resistor is connected to the first input terminal of the first operational amplifier 28, the second input terminal is cat It is connected to the first terminal of the eighth resistor 13 and to the second terminal of the tenth resistor 15, the second power terminal of the first operational amplifier 28 is connected to the second terminal of the eighth resistor 13, to the second terminal of the third capacitor, with the terminal of positive potential, with the cathode of the sixth diode 40 and with the first terminal of the actuator 1, the first power terminal of the first operating

the amplifier 28 is connected to the negative potential terminal 44, to the first terminal of the fifth capacitor 27, to the emitter of the transistor 41 and to the first terminal of the sixteenth resistor 21, the second terminal of which is connected to the base of the transistor 41 and to the first terminal of the fifteenth resistor 20, the second terminal of which is connected to the cathode fifth diode 39, the output terminal of the first operational amplifier 28 is connected to the first terminal of the eleventh resistor 16, the second terminal of which is connected to the second terminal of the second capacitor 24, with the cathode of the third diode 37, with the fourth diode 38 and the first terminal of the twelfth resistor 17, the second terminal of which is connected to the first input terminal of the second operational amplifier 29, the second input terminal of which is connected to the second terminals of the fifth capacitor 27 and the thirteenth resistor 18 and with the first terminal of the fourteenth resistor 19, the second terminal the power supply of the second operational amplifier 29 is connected to the positive potential terminal 45, the first power terminal of the second operational amplifier 29 is connected to the emitter of the transistor 41, the collector of which of the connections to the anode of the sixth diode 40, the output terminal of the second operational amplifier 29 is connected to the second terminal of the fourteenth resistor 19 and the anode of the fifth diode 39.

In addition, these elements are connected as follows. The second terminal of the first 2-2-1 of the secondary winding of the voltage transformer 2 is connected to the first terminal of the seventeenth resistor 22, made variable, the control output of which is connected to the second input terminal of the first rectifier unit 30 and through the first switch 32 to the first terminals of the second 2-2- 2 and the third 2-2-3 secondary winding of voltage transformer 2, and the second terminal is connected to the third terminal of the first 2-2-1 secondary winding of voltage transformer 2 and to the second terminal of regulator 4 of the number of turns, the third and fourth terminals of which are connected, respectively, with the first and second terminals of the second secondary winding 2-2-2

voltage transformer 2, and the second terminal of the third secondary winding 2-2-3 of voltage transformer 2 is connected to the first terminal of the first resistor 6.

The claimed device is additionally characterized by the following relationships between the above elements. The first terminals of the eighteenth 46 and nineteenth 47 resistors are connected, respectively, to the positive potential power terminal 48 and the negative potential power terminal 49, the cathode of the first zener diode 50-1 is connected to the anode of the second zener diode 50-2, the anode of the seventh diode 51 is connected to the second terminal of the eighteenth resistor 46, and the cathode is connected to the cathode of the second zener diode 50-2, with emitters of the second 53 and third 54 transistors, and with the first terminals of the twentieth resistor 55 and the sixth 57th capacitor, the cathode of the eighth diode 52 is connected to the second terminal of the nineteenth resistor 47, and the anode is connected to the anode of the first zener diode 50-1, with the first terminal of the twenty-first resistor 56 and with the first terminal of the first input winding 59-1 of the second voltage transformer 58, the second terminal of which is connected to the collector of the third transistor 54, and the third terminal is connected to the collector of the second transistor 53, the base of which is connected to the first terminal of the second input winding 59-2 of the second voltage transformer 58, the second terminal of which is connected to the second terminals of the twentieth 55 and twenty first ohm 56 resistors and a sixth capacitor 57, and the third terminal is connected to the base of the third transistor 54, the first input terminal of the third rectifier unit 61 is connected to the first terminal of the first output winding 60-1 of the second voltage transformer 58, the second terminal of which is connected to the first terminal of the second output windings 60-2 of the second voltage transformer 58, with the first terminals of the seventh 62 and the eighth 63 capacitors and with the zero potential terminal 43, the second input terminal of the third rectifier block 61 is connected to the second terminal th output winding of the second transformer 58 60-2

voltage, the first output terminal of which is connected to the second terminal of the eighth capacitor 63 and to the positive potential terminal 45, and the second output terminal of the third rectifier unit 61 is connected to the second terminal of the seventh capacitor 62 and to the negative potential terminal 44.

The resistance relay operates as follows.

The resistance relay is connected to the current difference 1a-1c and voltage Uac.

The operation of the resistance relay is based on the principle of comparing the absolute values of two voltages, which, in the general case, are a function of the voltage and current of the network. The compared voltages are generated using the first voltage transformer 2 and a current transformer 5 having two primary windings with the same number of turns.

With the regulator 4 of the number of turns and the presence of the first transformer 2 voltage of three serially connected first 22-1, second 2-2-2 and third 2-2-3 secondary windings, an accurate setting is provided by changing the actual number of turns by regulator 4. To maintain the resistance of the brake circuit is unchanged when adjusting the settings of the voltage transformer 2 in series with the taps of the second secondary winding 2-2-2, the resistances shown in the regulator 4 circuit are set. The third secondary winding 2-2-3, containing about one percent nt of the total number of turns of the secondary winding, is used to check the correct inclusion of the resistance relay by the load current.

The current transformer 5 has two primary windings with the same number of turns. One of them is included in the working counterfeit, and the other in the brake.

The angle of maximum sensitivity of the resistance relay is determined by the angle of the phase shift between the emf on the secondary winding of the current transformer 5 and the primary current, the value of which is set by the first 6 and second 7 resistors, shuntiroye.

Y5 / | 1H

respectively, the first 5-2-1 and second 5-2-2 secondary windings of the current transformer 5.

The voltage comparison is provided by a part of the resistance relay circuit, which can be defined as a comparison circuit containing the first 30 and second 31 rectifier blocks, fifth 10 and sixth 11 resistors, as well as the fourth 9 resistor, which is necessary to equalize the resistances of the working and brake circuits. The first 35 and second 36 diodes are introduced to avoid overload. To smooth the rectified current, a “filter plug from the first capacitor 23 and inductor 42 is used, tuned to the current resonance, for example, at a frequency of 100 Hz — the fundamental frequency of the rectified current. The third resistor 8 allows you to get the response characteristic of the resistance relay, shifted to the third quadrant relative to the origin of the complex plane of the resistance.

The responsive body of the comparison circuit is a null indicator, which is formed by the remaining elements of the resistance relay, controls the actuator 1 and compares the durations of the positive (working) and negative (brake) signals at the output of the comparison circuit and fixes the conditions under which the first exceeds the second.

In the first operational amplifier 28, its input signal is compared with a set reference level that determines the resistance relay. Depending on whether the signal of the comparison circuit exceeds the level of zero rms on the contrary, the output of the first operational amplifier 28 appears normalized in absolute value to a signal of one or another polarity. The eighth 13 and ninth 14 resistors serve to form the reference level.

Through the eleventh resistor 16, the second capacitor 24 is charged with current, the polarity of which is determined by the polarity of the signal at the output of the first operational amplifier 28.

In the initial state, the charge of the second capacitor 24 corresponds to a positive level, which is determined by the fourth diode 38. The second operational amplifier 29 through the feedback circuit through the fourteenth resistor 19 provides a specified negative signal to its non-inverting input, with the level of which the voltage across the second capacitor 24 is compared when recharge. When the potential of the second capacitor 24 reaches the desired level, the polarity of the signal at the output of the second operational amplifier 29 and, as a result, the polarity of the signal fed to the inverting input of the second operational amplifier 29 changes.

The transistor 41 provides amplification of the signal supplied to the input of the actuating element 1, made in the form of windings of the first 1-1 and second 1-2 actuating relays having corresponding actuating contacts.

Elements 46-63 provide a stable power level at the terminals of zero 43, negative 44 and positive 45 potentials, for example + - 15 V with a tolerance of + - 10%. The DC voltage supplied to the power terminals of positive 48 and negative 49 potentials is converted to voltage at the terminals of zero 43, negative 44 and positive 45 potentials, according to the scheme of a push-pull converter with self-excitation, consisting of second 53 and third 54 transistors, twentieth 55 and twenty the first 56 resistors and the second voltage transformer 58. The limitation of the DC voltage to a level that ensures the normal operation of the second 53 and third 54 transistors is carried out by the first 50-1 and second 50-2 zener diodes. The first 59-1 primary winding of the second transformer 58, included in the collector circuit of the second transistor 53, is the main, the second 59-2 primary winding of the second transformer 58, included in the base circuit of the third transistor 54, is made with an unequal number of turns to exclude cases of non-start

push-pull converter. The seventh 62 and eighth 63 capacitors serve to smooth the output voltage of the third rectifier block 61.

When a supply voltage (DC) is supplied to either the positive 48 and negative 49 potential terminals, a negative voltage is generated at the twentieth resistor 55, which is supplied to the bases of the second 53 and third 54 transistors, causing the opening of one of them. When one of the transistors, for example, the third transistor 54 is open, the second transistor 53 is closed until the magnetic flux in the core of the second transformer 58 reaches saturation. Moreover, the rate of change of the magnetic flux becomes close to zero, which significantly reduces the emf. in the windings of the second voltage transformer 58. A sharp decrease in current in the windings causes the appearance of an emf opposite polarity. In this case, a negative voltage will be formed on the basis of the second transistor 53, which causes it to open and increase

collector current. The process proceeds avalanche-like; the second transistor 53 goes into saturation mode. The described processes are repeated periodically, which leads to the formation on the terminals of zero 43, negative 44 and positive 45 potentials of the required stabilized supply voltage.

Thus, the proposed device has a higher accuracy, since it provides a more accurate adjustment to

network characteristics.

Sources of information taken into account:

1 Electrical reference book, in 4 volumes, vol. 2. Electrical products and devices. Under the general editorship of V.G. Gerasimova et al. - M.: Publishing House MPEI, 1998, p. 390, fig. 35.10.

2 Chernobrovov P.V., Semenov V.A. Relay protection of Energy systems. - M.: Energoatomizdat, 1998.p. 416, Fig. 11.33 (prototype). Authors: x e w Varganov G.P.

Claims (1)

A resistance relay containing an actuator, a first voltage transformer with a primary winding, the input terminals of which are input voltage supply terminals, and a first secondary winding, a current transformer with a first and second primary windings, whose input terminals are, respectively, supply terminals of the first and second input currents, and secondary windings, resistors from first to eighteenth, first and second zener diodes, first, second, third and fourth capacitors, characterized in that the second and the third secondary windings of the first voltage transformer, the second voltage transformer with the first and second primary and first and second secondary windings, the first and second operational amplifiers, the first, second and third rectifier blocks, the first, second and third switches, the fifth, sixth, seventh and eighth capacitors, first, second, third, fourth, fifth, sixth, seventh and eighth diodes, first, second and third transistors, inductor, eighteenth, nineteenth, twentieth and twenty-first resistors, and also terminals zero negative and positive potentials and power terminals of positive and negative potential, while the first and second terminals of the first resistor are connected, respectively, to the first and second terminals of the first secondary winding of the current transformer, the first and second terminals of the second resistor are connected, respectively, to the first and the second terminals of the second secondary winding of the current transformer, the first terminal of the third resistor is connected to the first input terminal of the first rectifier unit and through the second switch is connected to the second terminal of the third resistor and with the second terminal of the first secondary winding of the current transformer, the first terminal of the fourth resistor is connected to the first input terminal of the second rectifier unit, and the second terminal is connected to the first terminal of the second resistor, the second terminal of which is connected to the second input terminal of the second rectifier unit, the first terminal of the fifth resistor is connected to the first output terminal of the first rectifier unit, with the anode of the first diode, with the cathode of the second diode, with the first terminal of the seventh resistor, a zero potential terminal, with the first terminal of the thirteenth resistor, with the anode of the third diode, with the cathode of the fourth diode, with the first terminals of the second capacitor, third capacitor, fourth capacitor, tenth resistor, and through the third switch it is connected to the first terminal of the ninth resistor, with the second terminal the seventh resistor, with the cathode of the first diode, with the anode of the second diode, as well as with the first terminals of the inductor and the second capacitor, the second terminals of which are connected to the first output terminal of the second rectifier unit and with the first terminal of the sixth resistor, the second terminal of which is connected to the second terminal of the fifth resistor and with the second output terminals of the first and second rectifier units, the second terminal of the ninth resistor is connected to the first input terminal of the first operational amplifier, the second input terminal of which is connected to the first terminal of the eighth resistor and with the second terminal of the tenth resistor, the second power terminal of the first operational amplifier is connected to the second terminal of the eighth resistor, with the second terminal of the third condensate RA, with a positive potential terminal, with a sixth diode cathode and with a first actuator terminal, the first power terminal of the first operational amplifier is connected to the negative potential terminal, with the first terminal of the fifth capacitor, with the emitter of the transistor and with the first terminal of the sixteenth resistor, the second terminal of which is connected with the base of the transistor and with the first terminal of the fifteenth resistor, the second terminal of which is connected to the cathode of the fifth diode, the output terminal of the first operational amplifier is connected to the first a lemma of the eleventh resistor, the second terminal of which is connected to the second terminal of the second capacitor, with the cathode of the third diode, with the anode of the fourth diode and with the first terminal of the twelfth resistor, the second terminal of which is connected to the first input terminal of the second operational amplifier, the second input terminal of which is connected to the second terminals the fifth capacitor and the thirteenth resistor and with the first terminal of the fourteenth resistor, the second power terminal of the second operational amplifier is connected to the positive potential terminal In this case, the first power terminal of the second operational amplifier is connected to the emitter of the transistor, the collector of which is connected to the anode of the sixth diode, the output terminal of the second operational amplifier is connected to the second terminal of the fourteenth resistor and the anode of the fifth diode, the first and second secondary windings of the voltage transformer are made sectionally adjustable the number of turns, the first, second and third secondary windings of the voltage transformer are connected in series with each other, the extreme section of the first the toric winding of the voltage transformer, not connected to the second secondary winding of the voltage transformer, is shunted by the seventeenth resistor, which is made variable and its control output is connected to the second input terminal of the first rectifier unit and through the first switch is connected to the combined terminals of the second and third secondary windings of the voltage transformer, the other terminal of the third secondary winding of the voltage transformer is connected to the first terminal of the first resistor, the first terminals are eighteen of the nineteenth and nineteenth resistors are connected, respectively, to the power terminal of the positive potential and to the power terminal of the negative potential, the cathode of the first zener diode is connected to the anode of the second zener diode, the anode of the seventh diode is connected to the second terminal of the eighteenth resistor, and the cathode is connected to the cathode of the second zener diode, with emitters the second and third transistors, and with the first terminals of the twentieth resistor and the sixth capacitor, the cathode of the eighth diode is connected to the second terminal of the nineteenth resistor, and the anode is connected with the anode of the first zener diode, with the first terminal of the twenty-first resistor and with the output of the midpoint of the first input winding of the second transformer, one extreme terminal of which is connected to the collector of the third transistor, and the other extreme terminal is connected to the collector of the second transistor, the base of which is connected to the middle point of the second the input winding of the second voltage transformer, one extreme terminal of which is connected to the second terminals of the twentieth and twenty-first resistors and the sixth capacitor, and the other extreme to the terminal is connected to the base of the third transistor, the first input terminal of the third rectifier unit is connected to the first terminal of the first output winding of the second voltage transformer, the second terminal of which is connected to the first terminal of the second output winding of the second voltage transformer, with the first terminals of the seventh and eighth capacitors and with the terminal of zero potential , the second input terminal of the third rectifier unit is connected to the second terminal of the second output winding of the second voltage transformer, the first output Lemma which is connected to the second terminal of the eighth capacitor terminal and a positive potential and the second output terminal of the third rectifier unit connected to the second terminal of the seventh capacitor and the negative terminal potential.