UA16600U - Device for testing the service life of a group of high-voltage air switches - Google Patents

Abstract

The proposed device for testing the service life of a group of high-voltage air switches contains current transducers, a pressure transducer, a service life counter and a mechanical operation time meter for each switch, and an analog-to-digital converter for converting output signals of the current transducers and the pressure transducer into digital code. The operation currents of the switches and the pressure of compressed air are considered when determining the service life of the group of switches.

Description

Description of the invention

A useful model belongs to the field of electrical engineering and can be used to measure 2 switching life of air high-voltage circuit breakers.

Known device for monitoring the resource of a group of air high-voltage circuit breakers |Patent Mo57331A (Ukraine), M. kl. (307С3/10, Bull. Mob, 2003), containing the first, second and third current sensors, the outputs of which are connected, respectively, to the inputs of the first, second and third comparators and to the analog inputs of the first, second and third electronic keys, control inputs which are connected to the first, second and 70 third inputs of the first OR element, respectively, the outputs of the first, second and third electronic keys are interconnected and connected to the inputs of the fourth and fifth comparators, the outputs of which in turn are connected to the first by the inputs of the second and third triggers, the second inputs of which, as well as the second input of the first trigger and the second input of the first pulse counter, are connected to the output of the second OR element, the first input of which is connected to the output of the zero setting block, the second input is connected to the output of the pulse shaper, and the third input is connected 12 to the output of the signal delay unit, the input of the pulse generator is connected to the second input of the fifth element |, the first input of which is connected to the output of the generator pulses, and the output is connected to the first input of the first pulse counter and to the first inputs of the ninth, tenth and eleventh elements of AND, the outputs of the first, second and third comparators are connected, respectively, to the first inputs of the twelfth, thirteenth and fourteenth elements of AND, the outputs of which are connected respectively to the control inputs of the first, second and third electronic keys, and the second inputs are connected respectively to the first, second and third outputs of the decoder, the first and second inputs of which are connected respectively to the first and second outputs of the fifth pulse counter, the first input of which is is connected to the output of the fifteenth element And, and the second input is connected to the output of the second element

OR, the output of the first OR element is connected to the first input of the first flip-flop, the output of which is connected to the input of the NOR element, the output of which is connected to the first input of the fifteenth element | and with the first input 29 of the fourth AND element, the output of which is connected to the third input of the decoder, and the second input and the input of the differentiating element are connected to the output of the sixth OR element, the first, second and third inputs of which are connected to the outputs of the first, second and third sensors commutation through the first, second, and third monovibrators, respectively, the output of the pulse generator is connected to the second input of the fifteenth element |, the first, second, and third outputs of the decoder are connected, respectively, to the first inputs of the sixth, seventh, and eighth elements of And, the second inputs of which are are connected respectively to the outputs of the first, second and third AV monovibrators, and the outputs are connected to the first, second and third inputs of the fourth OR element, respectively, the output of which is connected to the first input of the first element AND, the inputs of the second, third and fourth pulse counters are connected according to the outputs of the ninth, tenth and eleventh elements I, the second inputs of which Ge) are connected, respectively, to the outputs of of the second and third monovibrators, the output of the differentiating element is connected to the first input of the fourth trigger, the output of which is connected to the first input of the third element -

OR, the second input of which is connected to the output of the first AND element, and the output is connected to the input of the pulse shaper, the output of the first pulse counter is connected to the first input of the fifth OR element, the second input of which is connected to the output of the second OR element, and the output connected to the second input of the fourth trigger, the outputs of the first, second, and third pressure sensors are connected, respectively, to the analog inputs of the fourth, fifth, and sixth electronic keys, the control inputs of which are connected, respectively, to the first, second, and third outputs of the decoder, outputs the fourth, fifth and sixth electronic keys are interconnected and connected

From" to the inputs of the sixth and seventh comparators, the outputs of which are connected, respectively, to the first inputs of the second and third elements of And, the second inputs of which are connected to the output of the first flip-flop, and the outputs are connected, respectively, to the first inputs of the fifth and sixth flip-flops, the second the inputs of which are connected to the output of the second OR element, the outputs of the first, second, third, fifth and sixth flip-flops are connected, respectively, to the first, second, third, - fourth and fifth inputs of the functional converter, the output digital bus of which is connected to

Ge") of the first input digital bus of the digital comparator, the second input digital bus of which is connected to the output digital bus of the first pulse counter, and the output is connected to the second input of the first element AND and to

Fo input of the signal delay unit. o 20 The disadvantages of this device are that it does not allow to take into account the exhaustion of the switching resource of the switches when they are turned on for a short circuit in the electrical network, since the resource characteristics of the switches when they are turned on and turned off do not match. In addition, this device does not allow taking into account the consumption of the mechanical switching resource of switches.

As a prototype, a device for monitoring the resource of a group of air high-voltage switches (Patent 29 Mo8564 (Ukraine), M. cl. 507С3/10, Bull. Mo8, 2005) was chosen, which contains the first, second and third current sensors, the outputs of which are connected respectively with the inputs of the first, second and third comparators and with the analog inputs of the first, second and third electronic keys, the outputs of which are connected to the inputs of the fourth and fifth comparators, the second input of the first pulse counter is connected to the output of the first OR element, the first input of which connected to the output of the zero setting unit, and the second input is connected to the output of the pulse generator, the input of which is connected to the second input of the first element AND, the first input of which is connected to the output of the first pulse generator, and the output is connected to the first input of the first pulse counter and to the first inputs of the third, fourth and fifth elements And the outputs of the first, second and third comparators are connected, respectively, to the first inputs of the seventh, eighth and ninth of elements I, the outputs of which are connected to the control inputs of the first, second, and third electronic keys, the outputs of the first, second, and third switching sensors are connected to the inputs of the first, second, and third monovibrators, and the inputs of the second, third, and fourth pulse counters are connected according to the outputs of the third, fourth and fifth elements of I, the second inputs of which are connected to the outputs of the first, second and third monovibrators, respectively, the outputs of the first, second and third pressure sensors are connected, respectively, to the analog inputs of the fourth, fifth and sixth electronic keys, the outputs of which are connected to the inputs of the sixth and seventh comparators, the output digital bus of the first pulse counter is connected to the second input digital bus of the digital comparator, the output of which is connected to the second input of the second element AND, the first input of which is connected to the output of the second element OR , the second inputs of the seventh, eighth and ninth elements | connected respectively to the control inputs of the fourth, fifth and sixth electronic keys, the second inputs of the seventh, eighth and ninth elements | connected 70 respectively to the first, second and third outputs of the counter with the decoder, and also connected to the first, second and third inputs of the register, the fourth, fifth and sixth inputs of which are connected respectively to the first, second and third inputs of the second OR element, the output of which Through the NOT element is connected to the second input of the sixth AND element, the first input of which is connected to the output of the second pulse generator, and the output is connected to the first input of the counter with the decoder, the second input of which is connected to the output of the second OR element, /5 outputs fourth, fifth, sixth and seventh comparators are connected, respectively, to the first, second, third and fourth inputs of the functional converter (hereinafter - the first functional converter), the output digital bus of which is connected to the input digital bus of the register, the output digital bus of which connected to the first input digital bus of the digital comparator, the outputs of the first, second and third monovibrators are connected according to the first , the second and third inputs of the second element OR, the output of the second element | connected to the input of the pulse shaper.

The main disadvantage of this device is its low accuracy, because it does not allow to take into account the exhaustion of the switching resource of the switches when they are turned on for a short circuit, since the resource characteristics of the switches when they are turned on and off do not match, and also this device does not allow to take into account the consumption of the mechanical switching resource of the switches.

The basis of a useful model is the task of creating a device for monitoring the resource of a group of air high-voltage switches, in which, due to the introduction of new blocks and connections between them, it becomes possible to take into account the consumption of the switching resource of the switches when they are turned on for a short circuit in the electrical network and the consumption of the mechanical resource of high-voltage switches, which allows to increase the accuracy of the device's operation. о оз The set task is achieved by the fact that in the device for monitoring the resource of a group of air high-voltage switches, which contains the first, second and third current sensors, the outputs of which are connected respectively to the inputs o of the first, second and third comparators and to the analog inputs of the first, second and the third electronic "o keys, the outputs of which are connected to the inputs of the fourth and fifth comparators, the second input of the first pulse counter is connected to the output of the first OR element, the first input of which is connected to the output of the block re)

From the zero setting, and the second input is connected to the output of the pulse generator, the input of which is connected to the second input of the first element AND, the first input of which is connected to the output of the first pulse generator, and the output is connected to the first input of the first pulse counter and to the first inputs of the third, fourth and fifth elements of I, the outputs of the first, second and third comparators are connected, respectively, to the first inputs of the seventh, eighth and ninth elements of I, the outputs of which are connected, respectively, to the control inputs of the first, second and third electronic keys, the outputs of the first, second, and third commutation sensors are connected, respectively, to the inputs of the first, second, and third monovibrators, the inputs of the second, third, and fourth pulse counters are connected to the outputs of the third, fourth, and fifth elements of I, the second the inputs of which are connected respectively to the outputs of the first, second and third monovibrators, the outputs of the first, second and third pressure sensors are connected respectively the bottom to the analog inputs of the fourth, fifth and sixth electronic keys,

OUTPUTS OF WHICH are connected to the inputs of the sixth and seventh comparators, the second inputs of the seventh, eighth and ninth - elements | connected respectively to the control inputs of the fourth, fifth and sixth electronic keys, the output of the digital comparator is connected to the second input of the second element AND, the first input of which is connected to the me) output of the second element OR, the second inputs of the seventh, eighth and ninth elements | are connected, respectively, to the first, second, and third outputs of the counter with the decoder, as well as to the first, second, and third inputs of the register, the fourth, fifth, and sixth inputs of which are connected, respectively, to the first, second, and third inputs of the second OR element, the output of which is connected through the NOT element to the second input of the sixth AND element, the first o input of which is connected to the output of the second pulse generator, and the output is connected to the first input of the counter with a decoder, the second input of which is connected to the output of the second OR element, the outputs of the fourth , the fifth, sixth and seventh comparators are connected, respectively, to the first, second, third and fourth inputs of the first two functional converters, the output digital bus of which is connected to the input digital bus of the register, the output digital bus of which is connected to the first input digital bus digital comparator, the outputs of the first, second and third monovibrators are connected to the first, second and third inputs of the second OR element, respectively, the output d of the rough element | connected to the input of the pulse shaper, the fourth monovibrator, the second function converter, the digital switch, the differentiating element, the fifth, sixth and seventh pulse counters, the tenth, eleventh and twelfth AND elements are introduced, and the output of the second OR element is connected to the differentiating input element, the output of which is connected to the first inputs of the tenth, eleventh and twelfth elements AND, the second inputs of which are connected to the outputs of the first, second and third monovibrators, and the outputs are connected to the inputs of the fifth, sixth and seventh pulse counters, the second the input digital bus of the digital comparator is connected to the output digital bus 65 of the digital switch, the first input digital bus of which is connected to the output digital bus of the second functional converter, and the second input digital bus and the input digital bus of the second functional converter are connected to the output digital bus of the first pulse counter , the output of the NO element is connected to the input m of the fourth single-vibrator, the output of which is connected to the control input of the digital switch.

The device for monitoring the resource of a group of air high-voltage switches is explained by a drawing showing its structural diagram.

In the diagram: 1, 2, Z - the first, second and third current sensors; 4, 5, 6 - the first, second and third comparators; 7, 8, 9 - seventh, eighth, ninth elements of I; 10, 11, 12 - the first, second and third electronic keys; 13 - the second pulse generator; 14 - element No; 15 - the sixth element I; 16 - counter with 7/0 decoder; 17, 18 - fourth and fifth comparators; 19, 20, 21 - the first, second and third pressure sensors; 22, 23, 24 - fourth, fifth and sixth electronic keys; 25, 26 - sixth and seventh comparators; 27 - the first functional converter; 28 - register; 29, 30, 31 - the first, second and third switching sensors; 32, 33, 34 - the first, second and third monovibrators; 35 - the second OR element; 36 - the first pulse generator; 37, 38 - the first and second elements of I; 39 - zero setting unit; 40 - pulse generator; 41 - the first element OR; 42 - /5 first pulse counter; 43 - the fourth single vibrator; 44 - the second functional converter; 45 - digital switch; 46 - digital comparator; 47 - differentiating element; 48, 49, 50 - the tenth, eleventh and twelfth elements of I; 51, 52, 53 - fifth, sixth and seventh pulse counters; 54, 55, 56 - the third, fourth and fifth elements /; 57, 58, 59 - the second, third and fourth pulse counters, and the outputs of the first 1, second 2 and third current sensors are connected, respectively, to the inputs of the first 4, second 5 and 2o third 6 comparators and to the analog inputs of the first 10, second 11 and the third 12 electronic keys, the outputs of which are connected to the inputs of the fourth 17 and fifth 18 comparators, the second input of the first pulse counter 42 is connected to the output of the first OR element 41, the first input of which is connected to the output of the zero setting unit 39, and the second the input is connected to the output of the pulse generator 40, the input of which is connected to the second input of the first element I 37, the first input of which is connected to the output of the first pulse generator Z6, and the output is connected to the first input of the first pulse counter 42 and to the first inputs of the third 54 , fourth 55 and fifth 56 elements of I, the outputs of the first 4, second 5 and third b comparators are connected, respectively, to - the first inputs of the seventh 7, eighth 8 and ninth 9U elements of I, outputs which are connected respectively to the control inputs of the first 10, second 11 and third 12 electronic keys, the outputs of the first 29, second ZO and third 31 switching sensors are connected respectively to the inputs of the first 32, second ZZ3 and third 34 o zo monovibrators, inputs of the second 57, the third 58 and fourth 59 pulse counters are connected to the outputs of the third 54, fourth 55 and fifth 56 elements of I, the second inputs of which are connected respectively to the outputs of the first 32, second Z3 and third 34 monovibrators, the outputs of the first 19, the second 20 and the third 21 sensors (about pressure are connected to the analog inputs of the fourth 22, fifth 23 and sixth 24 electronic keys, the outputs of which are connected to the inputs of the sixth 25 and seventh 26 comparators, the second inputs of the seventh 7, eighth 8 and re) ninth 9 elements | connected respectively to the control inputs of the fourth 22, fifth 23 and sixth 24 "- electronic keys, the output of the digital comparator 46 is connected to the second input of the second element I! 38, the first input of which is connected to the output of the second element OR 35, the second inputs of the seventh 7, eighth 8 and ninth 9 elements AND! are connected, respectively, to the first, second and third outputs of the counter with the decoder 16, as well as to the first, second and third inputs of the register 28, the fourth, fifth and sixth inputs of which are connected respectively to the first, second and third inputs of the second OR element 35, the output of which through element NO 14 is connected to the second input of the sixth element AND! 15, the first input of which is connected to the output of the second pulse generator. 13, and the output is connected to the first input of the counter with the decoder 16, the second input of which is connected to the output and? of the second OR element 35, the outputs of the fourth 17, fifth 18, sixth 25 and seventh 26 comparators are connected, respectively, to the first, second, third and fourth inputs of the first functional converter 27, the output

The digital bus of which is connected to the input digital bus of the register 28, the output digital bus of which is connected to the first input digital bus of the digital comparator 46, the outputs of the first 32, second 33 and third 34 monovibrators are connected, respectively, to the first, second and third inputs of the second element OR 35, exit

Me, the second element AND 38 is connected to the input of the pulse generator 40, the output of the second element OR 35 is connected

Ge" to the input of the differentiating element 47, the output of which is connected to the first inputs of the tenth 48, eleventh 49 and twelfth 50 elements I, the second inputs of which are connected to the outputs of the first 32, the second ZZ and the third 34 monovibrators, and the outputs are connected with the inputs of the fifth 51, sixth 52 and seventh 53 pulse counters, the second input digital bus of the digital comparator 46 is connected to the output digital bus of the digital switch 45, the first input digital bus of which is connected to the output digital bus of the second functional converter 44, and the second input digital bus and the input digital bus of the second V-function converter 44 are connected to the output digital bus of the first pulse counter 42, the output of the NO element 14 is connected to the input of the fourth monovibrator 43, the output of which is connected to the control input of the digital switch 45.

The proposed device works like this. When the supply voltage is supplied, the zero setting unit 39 with a short pulse through the first OR element 41 sets the first pulse counter 42 to the zero position. At the same time, the first 36 and the second 13 pulse generators begin to produce a sequence of pulses.

It should be noted that this device allows you to control the tripping resource of three single-pole air high-voltage switches.

If the switches are put into operation, then at the outputs of the first 1, second 2, and third current sensors, a voltage proportional to the current flowing in the various switches appears, which is fed to the inputs of the first 4, in5, second 5, and third 6 comparators, the thresholds of operation which are slightly higher than zero. At the same time, signals of a logical unit appear at the outputs of comparators 4-6, which are fed to the first inputs of the seventh 7,

eighth 8 and ninth 9 elements I. Also from the output of the second pulse generator 13 through the open sixth element 115 (at the same time, at the second input there is a logic one signal received from the output of the NO element 14, since the input of the latter receives a logical zero signal from the output of the second element OR 35) the first input of the counter with the decoder 16 receives pulses that alternately form the signals of a logical unit at its outputs, thereby alternately opening the seventh 7, eighth 8 and ninth 9 elements AND! and the first, second and third memory cells of the register 28 for recording, as well as the fourth 22, the fifth 23 and the sixth 24 electronic keys. At the same time, signals of the logical unit are received alternately on the control inputs of the first 10, second 11 and third 12 electronic keys, thereby opening them. Voltage signals from the outputs of the current sensors 1-3 through the corresponding 7/o Open electronic keys 10-12 are fed to the inputs of the fourth 17 and fifth 18 comparators, which have different trigger thresholds. At the same time, signals proportional to the compressed air pressure appear at the outputs of the pressure sensors 19-21, which are fed to the inputs of the sixth 25 and seventh 26 comparators through the corresponding open electronic keys 22-24. The signals that appear at the outputs of the fourth 17, fifth 18, sixth 25 and seventh 26 comparators are fed to the inputs of the first functional converter 27, at the output of which appears a digital code corresponding to the amount of current flowing in the switch at the corresponding compressed air pressure values. The digital code from the output of the first functional converter 27 enters the input digital bus of the register 28, where it is stored in one of the three memory cells in turn.

Depending on the values of current and compressed air pressure, the digital code at the output of the first functional converter 27 changes its value.

Thus, digital codes are stored in register 28, which correspond to the values of the current flowing in the various switches at the corresponding values of compressed air pressure.

In the event that one of the switches turns off the circuit, for example, the one containing the first commutation sensor 29, a logic unit signal appears at its output, which through the first univibrator 32 enters the first input of the second OR element 35. At the same time, the logic unit signal from output of the second element OR 35 through the element OV NO 14 enters the second input of the sixth element AND 15 and closes it. Also, the logic unit signal from the output of the second OR element 35 through the differentiating element 47 and through the open tenth element AND 48 (at the same time, the logic unit signal from the output of the first univibrator 32 is present at the second input) in the form of a short pulse enters the input of the fifth pulse counter 51, which leads to a decrease in the recorded mechanical resource of the switching device by one. The signal of the logical unit from the output of the second element of OR 35 enters the second input of the counter with the decoder 16 and sets its outputs to the zero position.

At the same time, the logic unit signal from the output of the first monovibrator 32 is fed to the fourth input of the register 28, thereby allowing the reading of the digital code from the first memory cell, which is fed to the first input He digital bus of the digital comparator 46. At the output of the digital comparator 46 the signal of the logical unit appears, which through the open second element AND 38 (at the same time, the signal ise is present at the first input) of the logical unit from the output of the second element OR 35) enters the second input of the first element | 37 and opens - where it is. From the output of the first pulse generator 36, the pulses are fed to the first input of the first pulse counter 42, and through the open third element I 54 (at the same time, there is a logic unit signal from the output of the first monovibrator 32 at the second input) they enter the second pulse counter 57. The number of pulses, entering the second pulse counter 57, shows how the operating resource of the switch is consumed in "

Dependencies on the value of the commutated current at the corresponding value of compressed air pressure. Pulses from the output of the first pulse generator 36 are supplied until the digital codes on the first and second input digital buses of the digital comparator 46 are equal. At this moment, the logical zero signal from the output;" digital comparator 46 through the second element | 38 enters the second input of the first element | 37 and closes it, as well as to the input of the pulse generator 40, which with a short pulse through the first OR element 41 resets the first pulse counter 42. - This completes the device's operation cycle. Depending on the number of comparators that have worked, a certain number of pulses is entered into the second pulse counter 57. At the same time, the specified dependence is observed

Me, between the value of the current being disconnected and the number of pulses that entered the pulse counter, which shows how the resource of the switch is spent depending on the different values of the switched current at the corresponding value

Compressed air pressure. o In the event that another switching sensor is triggered, the device works in a similar way. The only difference is that the reduction of the residual resource occurs in the corresponding pulse counter,

If the high-voltage switch is turned on, and there is a short circuit in the electrical network, then when the switch is turned on, a logic zero signal is set at the output of, for example, the second ZO switching sensor, which with its leading edge starts the second single-vibrator 33 and passes through the elements OR 35, NOT 14 and the leading edge starts the fourth monovibrator 43, which, in turn, with the output signal of the logic unit, which is supplied to the digital switch 45, connects the output digital bus of the first pulse counter 42 to the digital comparator 46 through the second functional converter 44, in which the value of the current set at the output of the first of the pulse counter 42 after turning off the high-voltage switch because of the relay protection, is multiplied by a factor that takes into account the additional operation of the switch resource, which is spent according to the resource characteristics for switching on. Thus, in the device in this cycle of operation, the activation of the working resource of the switch according to the resource characteristics for switching on and off when switching on the latter for a short circuit in the electrical network is taken into account.

This device allows you to determine the used resource of a larger number of switches. For this, it is necessary to make appropriate changes in the register 28 and the counter with the decoder 16, to increase the number of single-vibrators, resource counters, comparators, as well as the corresponding logical elements |.

The pulse frequency of the first pulse generator 36 is much higher than the pulse frequency of the second pulse generator 13.

The number of digits of the first 42, second 57, third 58 and fourth 59 pulse counters, as well as

The number of comparators that record the value of the switched current and compressed air pressure is selected depending on the range of measured current and pressure and the required degree of accuracy in determining the resource consumed by the switch.

The number of digits of the fifth 51, sixth 52 and seventh 53 pulse counters is selected depending on the value of the mechanical resource of the switches. 70 The first 27 and the second 44 function converters can be implemented on a chip of a non-volatile memory device in which corresponding codes are recorded, and in the first function converter 27 the codes are recorded, each of which corresponds to a certain coefficient of operation of the operating resource of the switch depending on any of possible values of current and pressure of compressed air, and codes are recorded in the second functional converter 44, which reflect the operation of the switch resource when it is turned on for a short /5 circuit in the network.

The duration of pulses of single-vibrators with direct dynamic input 32, 33, 34 and 43 is selected slightly longer than the time of complete filling with pulses of the first pulse counter 42.

Claims (1)

The formula of the invention A device for monitoring the resource of a group of air high-voltage switches, containing the first, second and third current sensors, the outputs of which are connected, respectively, to the inputs of the first, second and third comparators and to the analog inputs of the first, second and third electronic switches, the outputs of which are connected to the inputs of the fourth and fifth comparators, the second input of the first pulse counter is connected to the output of the first OR element, the first input of which is connected to the output of the zero setting block, and the second input is connected to the output of the pulse shaper, the input of which is connected to the second input of the first element I, the first input of which is connected to the output of the first pulse generator, and the output is connected to the first input of the first pulse counter and to the first inputs of the third, fourth and fifth elements I, the outputs of the first, second and third comparators with connected, respectively, to the first inputs of the seventh, eighth and ninth elements AND, the outputs of which are connected, respectively, to the control inputs of the first th, second and third electronic keys, the outputs of the first, (av) second and third switching sensors are connected to the inputs of the first, second and third co-vibrators, the inputs of the second, third and fourth pulse counters are connected to the outputs of the third, fourth and n of elements I, the second inputs of which are connected, respectively, to the outputs of the first, second (Se) and third monovibrators, the outputs of the first, second and third pressure sensors are connected, respectively, to "- analog inputs of the fourth, fifth and sixth electronic keys, outputs which are connected to the inputs of the sixth and seventh comparators, the second inputs of the seventh, eighth and ninth elements | connected respectively to the control inputs of the fourth, fifth and sixth electronic keys, the output of the digital comparator is connected to the second input of the second element AND, the first input of which is connected to the output of the second OR element, the second inputs « 20 of the seventh, eighth and ninth elements And are connected, respectively, to the first, second, and third outputs of the counter with the decoder, as well as to the first, second, and third inputs of the register, the fourth, fifth, and sixth inputs of which are connected to the first, second, and third inputs of the second OR element, respectively , the output of which is through the element :z" NO is connected to the second input of the sixth element AND, the first input of which is connected to the output of the second pulse generator, and the output is connected to the first input of the counter with a decoder, the second input of which is connected to the output of the second OR element, the outputs of the fourth, n The fifth, sixth and seventh comparators are connected, respectively - by the first, second, third and fourth inputs of the first functional converter, the output digital bus of which is connected to the input digital bus of the register, the output digital bus of which is connected to the first input (22) by the digital bus of the digital comparator, the outputs of the first, second and third monovibrators are connected FO according to the first, second and third inputs of the second element OR, the output of the second element AND! connected with INPUT of the pulse shaper, which is distinguished by the fact that it has a fourth monovibrator, a second functional converter, a digital switch, a differentiating element, fifth, sixth and seventh pulse counters, tenth, eleventh and twelfth AND elements, and the output of the second OR element connected to the input of the differentiating element, the output of which is connected to the first inputs of the tenth, eleventh and twelfth elements AND, the second inputs of which are connected to the outputs of the first, second and third monovibrators, and the outputs are connected to the inputs of the fifth, sixth and seventh pulse counters, the second input digital bus of the digital comparator is connected to the output digital bus of the digital switch, with the first input digital bus of which is connected to the output digital bus of the second functional converter, and the second input digital bus and the input digital bus of the second functional converter are connected to the output digital bus of the first pulse counter, the output of the NO element is connected to the input of the fourth monovibrator , the output of which is connected to the control input of the digital switch. b5