SU1088111A1 - Information measuring device - Google Patents

Abstract

1. INFORMATION MEASURING DEVICE containing a synchronization and control unit, the first five inputs of which are connected to the Start, Reset, Automatic, Manual and Zero buses respectively, the sixth input is connected to the first output of the first buffer block, the first input is connected to the first output synchronization and control unit, the seventh and eighth inputs of which are connected respectively to the first and second output of the multiplexer, and the ninth input - to the first output of the counter, whose information outputs are connected to the inputs a digital converter connected by an output to the first input of a multiplexer, the second input of which is connected to the output of the power supply unit, and the third output to the first input of a digital voltmeter, the second input of which is connected to the second output of the first buffer block, the second input of which is connected to the output digital voltmeter, and the third output - with the first input of the second buffer, the second input and the first and second outputs of which are connected respectively to the output, the first and second inputs of the digital printing unit, and the third input Connected to the first input of the display unit, the second input of which is connected to the second output of the synchronization and control unit, the third output and the tenth input of which are connected to the first input and output of the code converter, respectively, in order to expand its functionality, To additional analog-to-analog converters, a digital phase meter, a processor, a third buffer block, an information source and an input block, the output of the information source being connected to the first input of the input block, W The input and output of which are connected respectively to the output and the first input of the third buffer block, the second and third inputs of which are connected respectively to the fourth and fifth outputs of the synchronization and control unit, the sixth output of which is connected (L to the first input of the counter, the second input to which with the second output of the third buffer block, with the third input of the first buffer block, with the third input of the multiplexer, with the one and eleventh input of the synchronization and control unit, with the second input of the code converter, with the first m input of the processor and through To additional digital 0000 analogue converters with corresponding K-inputs of the multiplexer, the third input of the display unit is connected to the first output of the processor, the second and third outputs and the second input of which are connected respectively to the twelfth and thirteenth inputs and the third output of the synchronization and control unit the third input of the processor is connected to the output of the code converter, the fourth output is connected to the third input of the second buffer block, the fourth output of the processor is connected to the third the output of the first buffer block, and the fifth, sixth and seventh inputs of the processor are connected to the corresponding outputs of the digital phase meter, the inputs of which are connected to the fourth and fifth outputs of the multiplexer, respectively.

Description

2. Device POP.1, characterized in that the synchronization and control block contains a serial code register, a multivibrator, a parallel code register, a buffer block, a pulse generator, two AND elements, a synchronization counter, an information register, a decoder, a single pulse generator and two OR elements , the first, second and third outputs of the register of the forwarding code are connected respectively to the first and second output buses and the second output of the synchronization and control unit, the output of the multivibrator is connected to ne the first input of the first element is And, the second and third inputs of which are connected respectively to the fifth and thirteenth inputs of the synchronization and control unit, and the output is connected to the first input of the synchronization counter, the second input of which is connected to the tenth input of the synchronization and control unit, and outputs the corresponding inputs of the decoder, the first output of which is connected to the first input of the serial code register, and the second and third outputs are connected respectively to the first and third output of the synchronization and control unit , the input of the Single Pulse Shaper is connected to the first input of the synchronization and control unit, and the output to the first input of the first OR element, the second input of which is connected to the seventh input of the sniper and control unit, and the third input to the output of the second And element, the first second, third and the fourth inputs of which are connected respectively to the third, fourth, ninth and twelfth inputs of the synchronization and control unit, the input of the buFer block is connected to the fifth input of the synchronization and control unit, and the output is connected to the third the output bus, the first output of the parallel code register is connected to the fourth output bus, and the second output is connected to the second output of the synchronization and control unit, the outputs of the information register are connected to the corresponding inputs of the decoder, the fourth output of which is connected to the sixth output of the synchronization and control unit /, generator input the pulses are connected to the second input of the synchronization and control unit, and the output is connected to the fifth output bus, the output of the second OR element is connected to the fifth output of the synchronization unit and control The first and second inputs are connected respectively to the eighth and thirteenth inputs of the synchronization and control unit, the third input of the second OR element is connected to the input of the information register, the parallel code register, the second 1 input of the serial code register, the third counter input and the eleventh synchronization block input and control, the output of the first element OR is connected to the fourth output of the synchronization and control unit.

3. The device according to claim 1, that is, in that the code converter contains two registers, a comparator and an information register, the output of the comparator being connected to the first input of the code converter, the first input to the first output of the first register and to the second output of the converter codes, and the second input with the output of the second register, whose input is connected. To the second output of the first register, the first three inputs of which are connected respectively to the first, second and third buses of the input signal, the fourth input is connected to the second input A code of the fifth input is connected through the information register to the third input of the code converter.

one

The invention relates to measuring and computing techniques and can be used to monitor the health of analog-digital digital-analog and functional converters.

A device is known that contains a tested analog-to-digital converter, a switch, a control unit tl.

A device containing a synchronization and control unit is known, the first five inputs of which are connected respectively to the Start buses,

Reset, Automatic, Manual and Set zero, the sixth input is connected to the first output of the first buffer block, the first input of which is connected to the first, the output of the synchronization and control unit, the seventh and eighth inputs of which are connected to the first and second outputs of the multiplexer, respectively, and the ninth input with the first output of the counter, the information outputs of which are connected to the inputs of a digital-to-analog converter connected by the output with the first input of a multiplexer, the second input of which

The third output is connected to the first input of the digital voltmeter, the second input of which is connected to the second output of the first buffer block, the second input of which is connected to the output of the digital voltmeter, and the third output is connected to the first input of the second buffer block, the second input and the first and second outputs of which are connected respectively to the output, the first and second inputs of the digital printing unit, and the third input is connected to the first input of the display unit, the second input of which is connected to the second output of the synchronization unit ation and controlling the third output and a tenth input of which is connected to first input and output transducers codes C2.

The disadvantages of the known devices are their narrow functionality.

The aim of the invention is to expand the functionality.

The goal is achieved by the fact that the device containing the synchronization and control unit, the first five inputs of which are connected respectively to the Start, Reset Auto, Manual and Zero buses, the sixth input is connected to the first output of the first buffer block, the first input of which is connected to the first output synchronization and control unit, the seventh and eighth inputs of which are connected respectively to the first and second output of the multiplexer, and the ninth input - to the first output of the counter, the information outputs of which are connected to the input I will give a digital-to-noise converter, the output of which is connected to the first input of the multiplexer, the second input of which is connected to the output of the power supply unit, and the third output to the first input of the digital voltmeter, the second input of which is connected to the second output of the first buffer block / the second input is connected to the digital output voltmeter, and the third output - with the first input of the second buffer unit, the second input, the first and second output, w of which are connected respectively to the output, the first and second inputs of the printing unit 1, and the third The input is connected. To the first input of the display unit, the second input of which is connected to the second output of the synchronization and control unit, the third output and the tenth input of which are connected respectively to the first input and output of the converter, are entered. To additional digital-analog converters, digital-phase meter, processor, third buffer block, information source and input block, the source output being connected to the first input of the block; the second input and output of which are connected respectively to the output and the first input; the third first buffer block, the second and third inputs of which are connected respectively to the fourth and fifth outputs of the synchronization and control unit, the sixth output of which is connected to the first input of the counter, the second input of the second one is connected to the second input of the third buffer block, to the third input of the first buffer block, the third input of the multiplexer, with the eleventh input of the synchronization and control unit, with the second input of the code converter, with the first input of the processor and through To additional digital-to-analog converters with the corresponding by their K-inputs of the multiplexer, the third input of the display unit is connected to the first output of the processor, the second and third outputs and the second input of which is connected respectively to the twelfth and thirteenth inputs and the third output of the synchronization and control unit, the third input of the processor is connected to the output of the code converter, the fourth output - with the third input of the second buffer block, the fourth output of the processor is connected to the third output of the first buffer block, and the fifth, sixth and seventh inputs of the processor are connected to the corresponding output and a digital phase meter whose inputs are connected respectively with the fourth and fifth multiplexer outputs.

In addition, the synchronization and control unit contains a serial code register, a multivibrator, a parallel code register, a buffer block, a pulse generator, two AND elements, a synchronization counter, an information register, a decoder, a single pulse generator and two OR elements, the first, second and third the outputs of the serial code register are connected respectively to the first and second output buses and the second output of the synchronization and control unit, the output of the multivibrator is connected to the first input of the first element And And, the second and third inputs of which are connected respectively. The main and thirteenth inputs of the block, synchronization and control, and the output is connected to the first input of the synchronization counter, the second input of which is connected to the tenth input of the synchronization and control unit, and the outputs with the corresponding the inputs of the decoder, the first output of which is connected to the first input of the serial code register, and the second and third outputs are connected respectively to the first and third outputs of the synchronization and control unit, the input of the former is single pulse is connected to the first input of the sync and control unit, and the output is connected to the first input of the first OR element, the input of which is connected to the seventh input of the synchronization and control unit, and the third input to the output of the third element, And, the first, second, third and the fourth inputs of which are connected respectively to the third, fourth, ninth and twelfth inputs of the synchronization and control unit, the input of the buffer block is connected to the fifth input of the synchronization and control unit, and the output is connected to the third output bus, the first to The output of the parallel code register is connected to the fourth output bus, and the second output is connected to the second output of the synchronization and control unit, the information register outputs are connected to the corresponding "1. decoder inputs, four of which are connected to the sixth output of the synchronization and control unit, generator input pulses are connected to the second input of the synchronization and control unit, and the output is connected to the fifth output bus, the output of the second OR element is connected to the fifth output of the synchronization and control unit, and the first and second the moves are connected to the eighth and thirteenth inputs of the synchronization and control unit, the third input of the second element HJHf is connected to the input of the information register, the parallel code register, the second input of the serial code register, the third input of the counter and the eleventh input of the synchronization and control unit, the output of the first element OR is connected to the fourth output of the synchronization and control unit. In addition, the converter contains two registers, a comparator and a register of information, with the output of the comparator connected to the first input of the code converter, the first input to the second output of the code converter and to the first output of the first register, and the second input to the output of the second register, whose input connected to the second output of the first register, the first three inputs of which are connected respectively with. the first, second and third causes of the input signal, the fourth input is connected to the second input of the code converter, and the fifth input is connected through the information register to the third input of the code converter. Figure 1 shows the block diagram of the information-measuring device; 2, then de block synchronization and control; on fig.Z - the same converter codes. The information-measuring device contains a synchronization and control unit 1, the first five inputs of which are connected respectively to tins 2-6 Start, Reset, Automatic, Manual and Set zero, the sixth input is connected to the first output of the first buffer block 7, the first input of which is connected to the first output of block 1, the seventh and eighth inputs of which are connected respectively to the first and second output of multiplexer 8, and the ninth input is connected to the first output of counter 9, whose information inputs are connected to the inputs of the digital-analogue, n converter 10, the output of which is connected to the first input of the multiplexer 8, the second input of which is connected to the output of the source unit 11, the third output connected to the first input of the digital voltmeter 12, the second input of which is connected to the second output of the unit 7, the second input of which is connected to the output of the digital voltmeter 12, and the third output is connected to the first input. The second buffer unit 13, the second input, the first and second outputs of which are connected respectively to the output, the first and second inputs of the printing block 14 ,. the third input is connected to the first input of the display unit 15, the second input of which is connected to the second output of block 1, the third output and the tenth input of which is connected respectively to the first input and output of the converter 16 codes, the output of the information source 17 is connected to the first input of the input block 18 The second input and output of which are connected respectively to the output and the first input of the third buffer block 19, the second and third inputs of which are connected respectively to the fourth and fifth output of block 1, the sixth output of which is connected to the first input the house of the counter 9, the second input of which is connected to the second output of block 19, to the third input of block 7, is connected to the input of multiplexer 8, to the eleven input of block 1, to the input of converter 16, to the first input of processor 20 and through To additional digital-to-analog converters 21 with the corresponding K-inputs of the Multiplexer 8, the input of the block 15 is connected to the first output of the processor 20, the second and third outputs and the second input of which are connected respectively to the twelfth and thirteenth inputs and the third output of the block 1, the third input of the processor 20 dinene output converter 16, the fourth output with the third input of block 13, the fourth output of processor 20 is connected to the third output of block 7, a, and the seventh input of processor 20 is connected to the corresponding outputs of digital phase meter 22, the inputs of which are connected respectively to the fourth and n Multiplexer Outputs 8.

In addition, unit 1 contains the serial code register 23, the multivibrator 24, the parallel code register 25, the buffer pi unit 26, the pulse generator 27, And 28 and 29 elements, synchronization counters 30, the information register 31, the decoder 32, the single pulse generator 33 and the elements OR 34 and 35, the first, second and third outputs of the serial register register 23 are connected respectively to the outputs by buses 36 and 37 and the second output of block 1, the output of the multivibrator 24 is connected to the first input of the element 28, the second and third inputs of which are connected respectively Essentially with the fifth and thirteenth input of block 7, and the output is connected to the first input of the counter 30, the second input of which is connected to the tenth input of block 1, and the outputs to the corresponding inputs of the decoder 32, the first OUTPUT of which is connected to the first input of the register 23, and the second and third outputs are respectively connected to the first and third outputs of block 1, the input of the imaging unit 33 is connected to the first input of block 1, and the output to the first input of the OR element 31, the second input of which is connected to the seventh input of block 1, and the third input to the output element and 29 first The second, third and fourth inputs of which are connected to the third, fourth, ninth and twelfth inputs of block 1, the input of block 26 is connected to the fifth input of block 1, and the output is central to the output bus 38, the first output of the register 25 is connected to the output bus 39, and the second output is connected to the second output of block 1, the outputs of register 31 are connected to the corresponding inputs of the decoder 32, the fourth output of which is connected to the sixth output of block 1 ,. the generator input 27 is connected to the second input of block 1, and the output is connected to output bus 40, the output of the OR element 35 is connected to the fifth output of block 7, and the first and second inputs are connected respectively to the eighth and thirteenth inputs of the block 1, the third input of the OR element 35 is connected to the input of the register 31 and register 23, the second input of the register 25, the third input of the counter 30 and the eleventh input of block 1, the output of the OR.34 element is connected to the fourth output of block 1. In addition, the converter 16 contains registers 41 and 42, the comparator 43 and the register 44 information, and The output of the comparator 43 is connected to the first output of the converter 16, the first input is connected to the second output of the converter 16 and the first output of the register 41, and the second input to the output of the register 42, whose input is connected to the second output of the register.41, the first three inputs of which are connected respectively with the input signal buses 45-47, the fourth input is connected to the second input of the converter 16, and the fifth input is connected through the register 44 to the third input of the converter 16.

Information-measuring device works as follows.

In the initial state, the multiplexer 8 is in the disconnected state and no voltage or analog inputs are supplied to the output of the system. When a signal arrives on bus 3 to generator 27 in block 1, generator 27 is zeroed and pulses from the output of generator 27 are received. When a signal arrives at block 2 at block 26 in block 1, the latter generates a signal on bus 38 to bring the control object to its original cd position.

With the arrival of the bus 4 signal to the driver 33 in block 1, a start pulse is generated, which, through element 34 in block 1, block 19, block 18, allows input nporpauxiNftii from the information source 17.

The program arrives at multiplexer 8 and sets its connection program. The program determines the connection through the multiplexer 8 of the required power sources from block 11 to the power output of the device, connects to the analog outputs of the device outputs of the digital-to-analog converter 10 and digital-to-analog converters 21, connects the analog inputs of the device to the digital voltmeter 18 and digital phase meter 22. Multiplexer 8 at a time performing switching, issues a command to interrupt the input of the programs VL, which comes from the output of the multiplexer 8 through element 35 in block 1, through block 19 to block 18 of input. Upon completion of switching multiplexer 8. generates a start signal, which, through element 34 in block 1, block 19 and block 18, allows further program input from source 17.

The program from block 19, through counter 9, sets the mode of operation of the neij digital-to-analog converter 10, and provides for a mode of continuously changing the signal value from the output of the digital-analog converter 10 to the value determined by the program and the mode of the fixed value of the signal magnitude. The program from block 19 also sets the operation mode of the digital-to-analog converters 21, through block 7 sets the operation mode of the digital voltmeter 12, while the program determines the automatic operation mode Hf f & soTO of the voltmeter 12. measurement type, measurement limit, measurement time.

Functional program and information about the operations performed for this scan {operation} are entered into processor 20, block 19, and permanent data for the check being performed: control number, tolerance, constant coefficients are entered into RAM & quarrel.

The program from block 19, entered into register 44 in converter 16, denies the mode of operation of converter 16, the mode of reception of register 41 of serial or parallel codes from the corresponding device inputs and the number of code bits received from register 41 of converter 16 to processor 20.

The program received from block 18 in block 1, to register 23, determines the information in the serial codes of the system output, the register 25, the information in the parallel code, the output of the device, and the register 31 - the sequence of the output of pulses the decoder 32 to start the register 23, to start the digital voltmeter 12 through the block 7 of the register 42 into the converter 16, the processor 20 and the counter 9.

After entering all of the listed software from block 19 to the input of the seller 35 in block 1, a signal to enter the information is received, and to the input of the counter 30 in block 1 - a signal to enable the start of the counter 30 through the multivibrator 24 And 28. Signals from the output of the counter 30 arrive at the inputs of the decoder 32, the outputs of which appear pulses, which synchronize the operation of the device, the output sequence of which is determined by the state of the register 31.

Further operation of the device is dependent on the type of control being performed in this test, determined by the program.

Consider the operation of the device when performing control of analog sigals with a digital voltmeter 12. Starting a pulse from decoder 32 in block 1 via block 17 produces a snack of a digital voltmeter 12, TOTOXdA will begin measuring the analog signal of x0 voltmeter 12 through multiplexer 8. At the time of measurement of digital voltmeter 12, through block 7, it sends out a signal with a logic level O per element AND 28 in block 1, KOTO-Vra prohibits the next triggering of Cluster 30 and stops generating the following pulses from the decoder 32 i.e. the device is interrupted by time (gm of measurement of digital voltmeter 12. Upon completion of measurement, digital voltmeter 12 induces results, converts them into digital code and issues to block 7, and also reads the ready signal with a logic level 1 through block 7 to the element 28 and by which further triggering of the counter 30 is permitted, and the de-atrial 32 generates a start signal of the processor 20.

With the arrival of a trigger pulse in processor 20, block 7 rewrites the digital code corresponding to the measured analog signal, processor 20 performs tolerance control by comparing the recorded code with the check number and the tolerance recorded in processor 20 when the program is entered. The result of the control is fixed in the processor and outputted to block 15.

At the end of the monitoring and when the digital printing unit 14 of InfoO1 is ready from block 7 and processor 20, through input block 13 is output to digital print block 14.

The validity signal from the processor 20 enters the input of the AND 29 element in block 1 and, when the signal of the logical unit is ighed through buses 5 and 6, through the OR element 34. and block 18 allows further input of programs, i.e. allows the transition to the next check. When a logical zero signal arrives on bus 6, the transition to the next check is prohibited, repeated measurement and control are repeated on one check. This mode is used during tuning operations and when searching for faults in the control object and information-measuring device.

-When a signal is received, Vrac from processor 20 to the input of element AND 28 and element OR 35, the start of counter 30 is prohibited and a stop signal is given to the input of the program. The operation of the device is unstable, and the digital value of the digital voltmeter 12 is induced by the value of the analog value at which the fault occurred. To start the system further, it is necessary to feed the logical unit on bus 4.

When the device performs measurement and control of signals using a digital phase meter 22, two signals are connected via the multiplexer 8 to the input of the latter, to be measured. Digital phase meter 22 measures the phase shift between two signals and outputs codes that are proportional to the time difference between the signals, the period of the measured signals, and information about the sign of the shift. When the processor 20 is started up, the digital codes 20 are written off from the digital phase meter 22 into the processor, taking into account the sign, angle calculation and tolerance control. When the system performs the code control by comparing with the control value of the digital code, the converter 42 registers 42 record consecutive choices during their occurrence or a parallel code for the converter 16 start pulse from the output of the decoder 32 in block 1. The write resolution of the parallel or serial code issues a register 44, in which this information is recorded from the program. Upon launch from processor 20, the digital code from register 41 is written off to processor 20, which performs tolerance control of the code. The number is written off: rx bits of the code from register 41 to processor 20 determines information register 44. The monitoring by the information-measuring device of a digital code from an analog-to-digital converter connected to the device inputs is performed by comparing the digital code with the code of a digital voltmeter 12 which measures the analog value supplied to the input of the control object. The digital code from the output of the tested A / D converter, the supply to the device ECO output, and the code of the digital voltmeter 12 are compared according to the rule M (DI-M., Where K | CV, are the current values of the codes of the digital volt meter and the control object, respectively. continuous discrete change of the output signal from the digital-to-analog converter 10, the output of which is connected to the analogue via the multiplexer 8, the system outputs to which the inputs of the tested ADC are connected during the monitoring. The state of the digital-analogue converter 10 is determined by The sensor 9, to which input start-up pulses are sent from decoder 32 in block 1. Until counter 9 reaches the value recorded in the program, from the output of counter 9 to the input of element 29 of block 1, a signal with a logic zero level prohibits further program input from entering The signal from the processor 20 is available. When the counter reaches 9, the value specified in the program, counter 9 signals a signal with the level of a logical unit to the input of the AND 29 element and the signal GODEN from the processor 20 to the input of the AND 29 element through the element 34, block 19, a Start signal is output n input unit 18, further razrei1aets ad libitum program source information 17 is recorded on the program of a new range varying analog signal and for new admission control. At each change of the analog signal at the output of the converter 10, a digital code is fed from the tested converter to the corresponding system inputs. The monitoring is performed with each change of the monitored code. The code change is estimated by co-parator 43 in the 16-code converter,. the inputs of which are fed the current code value from register 42 and the previous code value, from register 43. Information is written to register 43 from register 41 when a new code value is written to register 41. With identical code values, the comparator 43 outputs a signal with a logic zero level, which zeroed the counter 30 in block 1, and; Digital voltmeter 12 and processor 20 are not started up. Upon further start of the counter 30 from the multivibrator 24, the output of the decoder 12 generates a start signal for the counter 9, which converts the converter 10 to a new state. At the input of the system from the tested converter, a new digital CD appears, corresponding to the newly installed analog signal, which is compared in the 16 code converter with the previous digital code. If the code has changed, the reset of the counter 30 is not made and the decoder 32 outputs a start signal of the digital voltmeter 12 and the processor 20. The processor 20 records the codes from the register 41 of the converter 16 and from block 7, which in the processor 20 are reduced to one dimension and compared between by myself. In block 15, in addition to the Pass and Reject information from the processor 20, information about the status of registers 23 and 25 of block 1 and information stored in the processor 20 is displayed. This allows you to monitor the correctness of the information entered from the program and the operation of the processor 20. The operation of the device is checked self-test program that allows you to check all the blocks of the device. Thus, the proposed device provides control of converters, documentation of control results, output of control results to an indication, and a self-test, which greatly expands its functions.

 4-7

Claims (3)

1. INFORMATION-MEASURING DEVICE containing a synchronization and control unit, the first five inputs of which are connected to the Start, Reset ⁴ , Automatic, Manual ”and Zero buses, respectively, the sixth input is connected to the first output of the first buffer block, the first input of which is connected to the first the output ^{3 is} the synchronization and control unit, the seventh and eighth inputs of which are connected respectively to the first and second output of the multiplexer, and the ninth input is connected to the first output of the counter, the information outputs of which are connected to the inputs of the qi analog-to-analog converter connected to the output of the first input of the multiplexer, the second input of which is connected to the output of the power supply unit, and the third output is to the first input of the digital voltmeter, the second input of which is connected to the second output of the first buffer unit, the second input of which is connected to the output digital voltmeter, and the third output is with the first input of the second buffer unit, the second input and the first and second outputs of which are connected respectively to the output, the first and second inputs of the digital printing unit, and the third input is is accessible to the first input of the display unit, the second input of which is connected to the second output of the synchronization and control unit, the third output and the tenth input of which are connected respectively to the first input and output of the code converter, characterized in that, in order to expand the functionality, K additional digital-to-analog converters, a digital phase meter, a processor, a third buffer unit, an information source and an input unit, the output of the information source being connected to the first input of the input unit, the second input to the output of which is connected respectively to the output and the first input of the third buffer unit, the second and third inputs of which are connected respectively to the fourth and fifth outputs of the synchronization and control unit, the sixth output of which is connected by the first input of the counter, the second input of which is connected to the second output of the third buffer unit, with the third input of the first buffer block, with the third input of the multiplexer, with one. the eleventh input of the synchronization and control unit, with the second input of the code converter, with the first input of the processor and through K additional digital-to-analog converters with the corresponding K-inputs of the multiplexer, the third input of the display unit is connected to the first output of the processor, the second and third outputs and the second input of which are connected respectively, with the twelfth and thirteenth inputs and the third output of the synchronization and control unit, the third input of the processor is connected to the output of the code converter, the fourth output is connected to the third input of the second buffer unit, the fourth output of the processor is connected to the third output of the first buffer unit, and the fifth, sixth and seventh inputs of the processor are connected to the corresponding outputs of the digital phase meter, the inputs of which are connected respectively to the fourth and fifth outputs of the multiplexer. 111880 G ”ns 2. The device according to claim 1, characterized in that the synchronization and control unit comprises a serial code register, a multivibrator, a parallel code register, a buffer unit, a pulse generator, two AND elements, a synchronization counter, an information register, a decoder, a single pulse shaper and two OR element, with the first, second and third outputs of the register of serial _and serial codes connected respectively to the first and second output tines and the second output of the synchronization and control unit, the output of the multivibrator is connected to the first the input of the first AND element, the second and third inputs of which are connected respectively to the fifth and thirteenth inputs of the synchronization and control unit, and the output is connected to the first input of the synchronization counter, the second input of which is connected to the tenth input of the synchronization and control unit, and the outputs are with the corresponding inputs a decoder, the first output of which is connected to the first input of the serial code register, and the second and third outputs are connected respectively to the first and third outputs of the synchronization and control unit, the input a single pulse shaper is connected to the first input of the synchronization and control unit, and the output is connected to the first input of the first OR element, the second input of which is connected to the seventh input of the synchronization and control unit, and the third input is connected to the output of the second AND element, the first, second, third, and the fourth inputs of which are connected respectively to the third, fourth, ninth and twelfth inputs of the synchronization and control unit, the input of the buffer unit is connected to the fifth input of the synchronization and control unit, and the output is connected to the third output bus, the first output of the parallel code register is connected to the fourth output bus, and the second output is connected to the second output of the synchronization and control unit, the outputs of the information register are connected to the corresponding inputs of the decoder, the fourth output of which is connected to the sixth output of the synchronization and control unit /, generator input pulses are connected to the second input of the synchronization and control unit, and the output is connected to the fifth output bus, the output of the second OR element is connected to the fifth output of the synchronization and control unit, and the first and second inputs are connected respectively to the eighth and thirteenth inputs of the control synchronization unit, the third input of the second OR element is connected to the input of the information register, the parallel code register, the second input of the serial code register, the third counter input and the eleventh input of the synchronization and control unit, the output of the first The OR element is connected to the fourth output of the synchronization and control unit. 3. The device according to claim 1, wherein the code converter comprises two registers, a comparator and an information register, wherein the comparator output is connected to the first input of the code converter, the first input to the first output of the first register and to the second output code converter, and the second input with the output of the second register, the input of which is connected to the second output of the first register, the first three inputs of which are connected respectively to the first, second and third buses of the input signal, the fourth input is connected to the second input dividing codes, and the fifth input is connected through the information register with the third input of the code converter.