SU1049819A1 - Device for measuring average pulse frequency in nonsteady random unit - Google Patents

Abstract

1. A device llja IZMERENIYASREDNEY FREQUENCY PULSE nonstationary random stream containing sync block, the first, second and third counting units, the interval counter, the control unit kszhlmutator and first and second outputs of which are connected respectively to the inputs of the summing and vychitayu11im second counting unit entrance slot counter connected to the first output of the control unit, the second output of which is connected to the first input of the first counting unit, characterized in that, in order to increase the accuracy and expand the functions -regional features incorporated therein selector arifme.tichesko logic unit, a first output connected to the first input t; rd Metered; The second output is connected to the first input of the control unit, the first input is connected to the first output of the third counting unit, the second input to the third output of the control unit and the third input to the output of the selector /. The first input is connected to the fourth output of the control unit,:. the second input is with the output of the interval counter, the third input is with the output of the second flight unit, and the fourth input is with the output of the first counting unit, the second input of which is connected to the first output of the synchronization unit whose input is the input of the device, and the second output connected to. the second input of the control unit., the fifth output of which is connected to the second input of the third counting unit, and the sixth output - to the first input of the switch, the second input of which is connected to the second output of the third counting unit and the third input of the control unit. 2. The device according to claim 1, characterized by e. in that the synchronization unit is in the form of a time generator, a clock generator, a delay unit, a trigger i, and a frequency limit latch, the output of which is one-third (the output of the synchronization unit, the second input of which is the time generator frequency limit, and the first input is with the second input of the clamp of the frequency limit and the input of the delay unit, the first output of which is connected to the R-input of the trigger, the second output is the first output of the syncro block 4 is connected to the 8-input of the trigger, the CO output of which is connected to the third input of the limit frequency lock and to the first input of the clock generator, the second input of which is connected to the output of the time generator, and the output is the second OUTPUT of the synchronization unit. . The device according to the if. Clause, and that the control unit contains a delay element, first, second, third and fourth elements 2-2И-2ИЛИ-ЕЁ, clock generator, two-bit counter, element 2И-НЕ / 2I, shaper. Pulses, first summatbr second modulo two, the trigger, the first and second elements and coupler NOR lane

Description

the input of which is connected to the input 2-2I of the second element 2-2I-2NLI-NOT, with the input 1-2N of the first element 2-2I-2ILI-NOT and with the output of the first adder of MODULE two, the first input of which is the first input of the block control, the second input is connected to the first input of the second element I and to the input 2-2I of the fourth element 2-2I-2ILI-NOT, the output of which is connected to the second input of the second modulator, two, the first input of which is connected to the second input of element 2I- NOT / 2I, with direct output of the highest bit of the two-digit counter, with the second input impulses and with input 1-2 and fourth element 2-2И-2ИЛИ-НЕ, inputs 1-2 and 2-1 and which are connected to the first inputs of the first element I, the second input of the former, pulse CJB, the first input of the element 2И-НЕ / 2И and with the direct output of the two-digit counter gshadsh discharge, the input of the two-bit counter is connected to the output of the second element 2-2И-2ИЛИ-НЕ. input 1-2 and of which is connected to the output of element 2И-НЕ / 2И and с; input 2-2I of the first element 2-2I-2NLI-NOT and with the third input of the element ZI-NOT, and input 2-1I is connected to the input 2-2I, with the second input of the element ZN-NOT, with input 1-2I of the first element 2 -2И2ИЛИ-НЕ and with the output of the clock generator, whose input is connected to the trigger trigger, R-input of which is connected to the first output of the pulse former, the second output of which is connected to the inputs 2-1I, 1-2I of the Third element 2-2I2ILE-NO, input 2.-2I is connected to the D input of the trigger, and input 1-1I is connected to the output of the delay element, the input of which is connected to the C input of the trigger, direct and inverse outputs of which are connected to the second inputs of the first and second elements I.

The invention relates to digital measurement technology, intended for use in digital frequency meters, statistical analyzers of random processes, and can be used to measure the average frequency over a continuous long time interval with an intermediate output of the measurement result.

A device for measuring the average frequency is known, comprising a pulse rewrite generator, a frequency divider, an input pulse stream counter, a control unit and a measurement result counter f,

The drawback of the device is the low measurement accuracy associated with dynamic and instrumental errors.

The closest to the invention by technical complexity is a device containing a synchronization unit, first, second and third counting units, an interval counter, a control unit, a rewriter pulse generator, a frequency divider and a switch, the first and second outputs of which are connected respectively to the summing and subtracting inputs of the second the counting unit, the input of the interval counter is connected to the first output of the control unit, the second output of which is connected to the first input of the first counting unit p.

A disadvantage of this device is that it is impossible to measure the average frequency of a pulse sequence on a continuous time interval, which, despite the high accuracy of selective measurements of the average frequency, leads to large errors in measurements in the case of non-stationary random flows. In the known device, the measurements are carried out by samples of duration T with discontinuities in time, which

0 according to the principle of operation of the device can not be made equal to zero. Naturally, with this method of measuring the frequency of unsteady random flows, the average frequency measured by the device is essentially

differs from the real mean value and the larger, the longer the gap between the measurements and the greater the frequency variation in the studied stream of the pulse sequence. In addition, the device does not measure the instantaneous value of the frequency in the pulse sequence, although the first counting unit calculates the input pulses over a measurement interval of duration T,

The purpose of the invention is to improve the accuracy and expansion of functionality.

The goal is achieved

by the fact that, in a device for measuring the average frequency of a non-stationary random flow pulse, we have a synchronization unit, a first and a third counting unit, an interval counter, a control unit and a switch, the first and second outputs of which are connected respectively to the summing and subtracting inputs of the second counting unit , the input of the interval counter is connected to the nepBijiM output of the control unit, the second output of which is connected to the first input of the first counting unit, a selector is added, an arithmetic-logical unit, the first Exit coupled to a first input of the third counting unit, the second output - with an input pen vym control unit, a first input connected to the first output of the third counting blokaG, the second input - to tretshl tsyhodop the control unit and the third input - to the output. the selector, the first input of which is connected to the fourth output of the control unit, the second input - with the output of the interval counter, the third input with the output of the second counting unit, and the fourth entrance - with the output of the first counting unit, the second input of which is connected to the first output of the synchronization unit, input which is the input of the device, and the second output is connected to the second input of the unit up. The sixth output is connected to the first input of the switch, the second input of which is connected to the second output of the third counting unit and to the third input of the control unit. In THIS, the synchronization unit is implemented in the form of a time interval generator, a sync driver, a delay unit, a trigger a, and a limit frequency lock, the output of which is the third output, a synchronization block whose second input is the input of a time interval generator, and a nepBbiht input of the limit lock frequencies, and the first input is with the repeat-1 input of the latching frequency lock and the input of the delay unit, the first output of which is connected with the cR trigger input, the second output is the first output of the synchronization unit and is connected to the 5-input of the trigger, the output of which is connected to the third input of the limit frequency lock and to the first input of the clock generator, the second input of the clock is connected to the output of the time interval generator, and the output is the second output of the synchronization unit. Moreover, the control unit contains a delay element, the first, second, third and fourth elements 2-2к2ИЛИ-НЕ, the clock pulse generator, ДЕ -disable counter, the element 2И-НЕ / 2И, the driver of the pulses, the first and second modulo two, the trigger , the first and second element And, the element ZI-NOT, the first input. which is connected to the input 2-2I of the second element 2-2I-2IL-NOT, to the input 1-2I of the first element 2-2I-2ILI-NOT and to the output of the first modulo two, the first input of which is the first input of the control unit, the second input is connected to the primary input of the second element And and to the input 2-2I of the fourth element 2-2I-2ILINE, the output of which is connected to the second input of the second modulo two, the first input of which is connected to the second input of the element 2И-НЕ / 2И, with the direct output of the high bit of the two-bit counter, with the second input of the pulse former and with the input 1-2Y of the fourth element 2-2I-2ILI-NOT, the inputs 1-2I and 2-1I of which are connected to the first inputs of the first element I, the second input of the pulse former, the first input of the element 2I-NE / 2.I.and the direct output the younger bit of the two-bit counter, the input of the two-bit counter is connected to the output of the second element 2-2И-2ИЛИ-НЕ, the input 1-2 and which is connected to the output of the element 2И-НЕ / 2И, with the input 2-2, And the first element 2- 2I-2ILI-NOT and with the third input of the element ZI-NOT, and the input 2-1I is connected to the input 2-2I, with the second input of the element ZI-NOT, with the input 1-2 and the first element 2-2I-2ILI-NOT and with the output of the clock pulse generator, the input of which is connected to the inverse output of the trigger, whose input is connected to the first output of the pulse former, the second output of which is connected to the inputs 2-1I, 1-2I of the third element 2-2 .IN-2ILI-NOT, input 2-2I is connected to the CX-input of the trigger, and input 1-1I is connected to the output of the delay element, the input of which is connected to the C-input of the trigger, the direct and inverse outputs of which are connected to the second inputs of the first and, the second element I. In fig. 1. shows a block diagram of a device for measuring the average frequency of a pulse of non-stationary random flow; 2 shows the block diagram of the control unit. A device for measuring the average frequency of a non-stationary random flow pulse contains a synchronization unit 1, the first, second and third counting blocks 2-4, a 5 interval counter, a control block 6 and a switch 7, the first and second outputs of which are connected respectively to the summing and subtracting inputs -. Dami of the second counting unit 3, the input of the counter 5 intervals is connected to the first output of the control block b, the second output of which is connected to the first input of the first counting unit, the selector 8 and the arithmetic logic unit 9, the first output of which is connected to the first input of the third counting unit , the second output with the first input of the control unit, the first input connected to the first output of the third counting unit, the BTopofl input. - with the third output of the control unit - J control and the third input - with the output

the selector, the first input of which is connected to the fourth output of the control unit, the second input to the output of the interval counter, the third input to the output of the second counting unit, and the fourth input to the output of the first counting unit, the second input of which is connected to the first output of the synchronization unit is the input of the device, and the second output is connected to the second input of the control unit, the fifth output of which is connected to the second input of the third counting unit, and the sixth output to the first input of the switch, the second input of which is connected to the second output of the third differential unit and with the third input of the control unit. Synchronization unit 1 consists of a time generator G, a synchro generator 11, a delay unit 12, a trigger 13, and a limit frequency lock 14, the output of which is the third output of the synchronization block, the second input of which is a time signal generator and the first time limit lock frequency, and the first input - the second input of the latch frequency limit and the input of the delay unit, the first output of which is connected to the R-trigger input, the second output is the first output of the synchronization unit and connect nen with S -Log trigger whose output is connected to the third input latch limiting frequency and with a first input of the clock, a second input coupled to an output of the generator slots, and the output is the second output of the sync block.

Control unit 6 contains a delay element 15, first, second, third and fourth elements 2-2И-2ИЛИ-НЕ 1619, generator 20 clock pulses two-digit counter 21, element 22 2И-НЕ / 2И, driver 23 pulses, first 24 and second 25 adders modulo two, trigger 26, first and second elements AND 27 and 28, a delay element and a ZI-NO 29 element, the first input of which is connected to the input 2-2I of the second element 2-2I-2LINE, C input 1-2C of the first element 2 -2И-2ИЛИ-НЕ and with the output of the first modulo-two adder and the first input of which is the first input of the control unit the second input is connected to the first input of the second element I and to the input 2-2I of the fourth element 2-2I-2ILI-NOT, the output of which is connected to the second input of the second modulo two, the first input of which is connected to the second input of the element 2I-NOT / 2I, with the direct output of the higher-order two-dimension counter, with the second input of the pulse former and with the input 1-2 of the fourth element 2-2I-2 OR-NOT, the inputs 1-2 and 2-1 of which are connected to the first inputs of the first element I, Vtorgh. the input of the pulse former, the first input of the element 2И-НЕ / 2Н and the direct output of the two-digit counter of the two-digit counter, and the input of the two-bit counter of the counter is connected to the output of the second element 2-2И-2ИЛИ-НЕ, the input 1-2 of which. connected with you soda element 2I-: NOT / 2I and with input2-1I of the first element 2-2I-2ILI-NOT and with the third input of element ZI-NOT, and input 2-1I connected to input 2-2I, with the second input of element ZI-NOT, with the input 1-2I of the first element 2-2I-2, OR-NOT. and with the output of the clock pulse generator, the input of which is connected to the inverse output of the trigger, the input of which is connected to the first output of the pulse former, the second output of which is connected to the inputs .2-1I and 1-2I of the third element 2-2112IL-NOT, input 2- 2I is connected with a cD-trigger input, and input 1-1I is connected to the output of a delay element, the input of which is connected to the C-input of the trigger, the direct and inverse outputs of which are connected to the second inputs of the first and second elements I. The control block b has four inputs 30-33 and six outputs 34-39.

The arithmetic and logical unit 9 performs arithmetic and logical operations in accordance with the algorithm of the device operation on codes A and B, arriving at its first and third inputs, respectively, under the action of a control signal. Code of the third output 36 of control unit 6 to its second input . The arithmetic and logical options necessary for the operation of the device and the corresponding signal combinations The code (applicable to the K155 IPS chip) is given in the table.

The first output K of the arithmetic logic unit 9 is connected to the first input of the third counting unit 4, the first output of which is connected to the input A of the arithmetic logic unit 9. The second output of the Zn f of the arithmetic logic unit 9 is the sign bit of the result F and is connected to the first input block b control. The device operation algorithm is as follows. Suppose that at the moment when the next (i +1) th measurement pulse completes at the moment the control unit arrives at the control unit, Nnd.) The following values are stored in the counters and registers: in counter 5, the & b interval is i, which determines the number of the previous measurement interval; in the first counting unit 2, the value of t determines the number of pulses in the (+ l) -and the measurement interval of duration D T const f in the second counting unit 3 is the value of n; defining; The average value of the frequency in time is. & T and in the third counting block 4 is the value of t for which limi + iiu; which determines the amount of excess, i.e. non-dividing -i pulses in a full pulse sequence during iAT. The total number of pulses arriving at the devices is determined by the expression M + (m; A-). Taking further in order to simplify & T 1, we find that the refined value of the average frequency for AT time is determined in the case of icpr i. At the same time, the error Ai er is not measured for 1cp; it does not remain constant but decreases with increasing i and is determined by the formula and {During the display, you must output the number i of the measurement interval, the integer part P, the values of the average frequency iep; ; the instantaneous frequency value, for (+1) -and the measurement interval; t value specifying tcp; according to the formula (1). The indication of the measurement result of the average frequency for the interval and the interval is made only at the end of the (i + l) -r "measurement interval. From the moment of the end of the indication by the device, the sequence of operations for obtaining fcp-4 is performed using the expressions. + T; And; ig.) l; i4A + rn -l-n m; ,, OD where C4 is an integral part, OD. - the remainder of the division (the subtraction in the alignment (2) of the remainder of the division of the unit is associated with the peculiarity of the arithmetic-logical unit 9). First, the first counting block 2 is released, i.e. This operation is performed by setting up the value Code in accordance with the fifth position of the table, and selector 8 switches to output B the contents of the first counting unit 2. After writing the result (ni; + K ,. + 1) to the third the counting unit 4 performs a rearrangement of the selector 8 for switching to the output B of the content of the second counting unit 3, and the arithmetic logic unit 9 is supplied with a code in accordance with the third position of the table. Thus, the operation {m. + K ,. + 1) - n, J; the result of which is recorded in the third counting unit 4. Further operation of the arithmetic logic unit. 9 is associated with the implementation of the division operation in expressions (2). Performing this operation requires checking the sign of ZnA in the contents of the third counting unit 4 and switching to output B of the selector 8 the contents of the counter 5 intervals. The division is carried out by successive subtraction, if the ЗН А ОО, or by adding, if ЗН А 1, to the content A of the third counting unit 4, the values of i, stored in the counter 5 intervals, until, by the way, З and В and А have no opposite levels i.e. tsrn wont become exchange-ie i. . Each subtraction (addition) is followed by measuring the content of the second counting unit 3 by plus (minus) one. At the end of all the listed operations, the unit of the remainder of the division, in accordance with expression (2), is subtracted from the third counting unit 4 (the fourth position of the table, at 0), i.e. the value is t, 41. The device works as follows. Previously, in the control block b, a device reset pulse is generated (this connection is not shown), which sets 1 trigger 26 of control unit 6 and resets the first, second, and third counting blocks 2–4, counter 5, and double counter 21 control unit 6, in the generator 10 time intervals begins with the counting of the measurement interval of LT const. The synchronization block 1, whose operation, starting from the moment of resetting, does not depend on the operation of all the other blocks and elements of the device, works as follows .. The pulses of the unsteady random flow under study entering input 1 (cc-d of synchronization block 1 are delayed by. Time i, which in turn reset the trigger to O, in the interval duration (. 1, the level of the HaD-trigger trigger is checked in the limit frequency lock 14. After the time i has expired, a second pulse appears at the second output-delay block set the trigger 13 to the state 1. Thus, the pulse per sequence at the output of the trigger 13 always represents a series of pulses of negative polarity with a duration (2 i) I and a tracking period equal to 1 corresponding to the pulse following periods in random pulse stream under study. The occurrence of a pulse sequence in a pulse sequence with a period of less than does not change the zero match of trigger 13 (trigger 13 of this pulse and all pulses delayed from it by the block 12 delays ) and at the same time, the step on the C-input of the trigger in the latch 14 of the limiting frequency, the latter is reset to the state. This trigger can be returned to state 1. Now it is possible only with a signal. Setting .-. Zero trigger status in the latch 14 of the limiting frequency leads to the appearance of a single level at the output of 1usc of the synchronization unit 1. After the end of the measurement interval with duration AT, a negative polarity pulse appears at the generator output of 10 time intervals, which initiates the appearance at the second output of the synchronization unit 1 short. impulse of negative polarity, which in this case is formed only after the installation of the trigger 13. In state 1. Due to the restriction imposed on the follow-up period, the pulses of the test flow (t, ce (the single state of the trigger 13 guarantees the absence of pulses at the first output of unit 1 Synchronization Violation of the condition, as indicated, is fixed by the latch 17 of the limiting frequency. After setting all the listed elements and blocks of the device to Outcome, the reset mode is set. FA-1 operation. Then, after a period of time TQ / 2, a RE recording pulse is generated, according to which the value of F is rewritten into the third counting unit 4. Then the change is made in 01 to the Sel code, at the input of the two-digit counter 21, The selector 8 switches the output B to the content of the first counting unit 2 and which triggers the reset 26. According to the zero level, the output of the trigger 26, the Sel signal code 01, and the unit level at the second output 35 of the unit 4, changes the signal to perform the function R L, the result of which is also ety zero. This completes the device reset mode, the device enters the sync pulse waiting mode from the second output of the sync unit. With the arrival of the sync pulse from the second output of block 1, the device is transferred either to the measurement mode of only instantaneous value (Start O) or to the measurement mode of the average frequency (Start 1). The Pusk signal level can be changed at arbitrary points in time, which can be used to measure the average frequency by analogy with a known device, i.e. . according to certain samples from the stream of pulses of the random i sequence under study .. Change of the signal level Starting c. 1 to O switches the device to measurement mode 7 only of the instantaneous frequency value with simultaneous indication of the number of the last measurement interval of the average frequency and the value of this average frequency. Signal change Start to 1 switches the device to the mode of measuring the average value of the frequency, as if there was no gap in the level 1 of the start signal before. In the measurement mode only, the instantaneous value of the impulse Indus leads to the appearance of an impulse. Resetting the negative polarity of a non-intersecting time with the impulse Indus. (. 2), which is necessary in order to create the possibility of displaying on the content display all the necessary blocks. Pulse Reset is reset, the first counting unit 2 in O. This completes the operation of the device in this mode and waits for the next pulse from the second output of unit 1.

If, during the appearance of a pulse Indus, the potential of the Start signal (Fig. 2) is set, the device switches to the mode of determining the average value of the frequency under study. At the end of the indication time of the falling edge of the Indus signal, together with. unit 1 signal level Start, the trigger 26 is set to O, which in turn causes the generator to start 20 clock pulses and the signal changes. The code to perform the function F А + В + + 1 tnj + К +, + 1 in the arithmetic logic unit 9 , At the time interval To / 2, a pulse of RE is formed, according to which the value of F is rewritten into the third counting unit 4. Next, the contents of the two-digit counter are changed so that Sel. 10, t, e, the output of the contents of the second counting unit 3 is switched to, In turn, the change from 01 to 10 causes the pulse generator 23 to appear at the second output, by which the contents of the counter 5 intervals change by +1 and then impulse Reset, resetting the first counting block 2, Time between the beginning of the impulse Ind. and a final reset of the first counting unit 2 determines the delay 2 2 2. in block 12 delays block 1 synchronization. The establishment of the Sel code, 10 also leads to a change in the signal. The code is in accordance with the third position of the table, which leads to the appearance at the output F of the value determined by the expression

  (m, of this moment, the device waits for the next pulse on the output of generator 20, the appearance of a pulse leads to the formation of a RE pulse, according to which the contents of F are copied to the third counting block 4. The falling edge of this pulse changes the Cel code to 11, t , e, the output B is switched by the selector 8, the contents of the counter are 5 intervals, the Sel code, 11 leads to a change in the signal. The code for the third position of the table is if the content A of the third counting unit 4 is positive (value O), or sixth position if the content is negative ( 1) Thus, in the arithmetic and logic unit 9 is performed scanned catch INSTALLS

ll (.V 0 Inequality (3) is satisfied if the signals Zi A and, 3n F have

the same levels, while with the arrival of the next pulse from the generator 20, a RE signal is generated, according to which the value of F is rewritten into the third counting unit 4 and simultaneously

5 seconds a +1 momentum is formed

Fig. 2), which changes the content of the second counting block 3 by +1, if ЗН А О, and -1, if ЗН А А, Change

10 of the contents in the third counting block 4 leads to the formation of a new F value for checking the inequality (.3). The process of generating the RE signals and +.1 continues until

15 to the arrival of the next pulse from the generator output 20; the signals Zn A and Zn F do not have opposite signals. levels. This is done by setting the -Cell code, 00,

20 which in turn leads to a change in the signal of the code for the arithmetic logic unit 9 to perform operation F A - B - 1 (the output B of the selector 8 is identical)

25 nil). This operation is necessary to prepare 4 values in the third counting block, equal to the remainder of dividing by expression (2), to display. The arrival of the next pulse from the generator 20 output forms a rare-earth pulse, according to which F

rewrites to the third counting block 4, and then setting up the Sel code, which in turn changes the signal Execution code in the arithmetic-logical block of the operation, allocating the remainder module Hi ;, stored in the third counting block 4, In addition, installing the code with: ate 01 leads to

0 the appearance at the first output of the imager 23 of a short pulse, dropping the trigger 26 into O, which blocks the generator 20 clock pulses and this completes the process

5 determination of the testimony of the next

measurements. The indication of the measurement result is carried out at the moment of arrival of the next Indus pulse, with the appearance of which the device

Q works or in measurement mode

of instantaneous frequency only, if Start O, or in the mode of measuring the average value, if Start 1,

 Thus, a device for measuring the average frequency of a transient random flow pulse

increases the accuracy of medium frequency measurements by completely eliminating the loss of pulses throughout the medium frequency measurement interval, expands the functionality of the known device by simultaneously measuring the instantaneous frequency, t, e, allows you to simultaneously measure both instantaneous and average frequency as well as to make measurements with both time and continuous samples, increases the accuracy of the average frequency measurement due to

additional output on the display of the interval intervals contained in the counter and. the third counting unit, which in known devices leads to significant additional hardware costs.

/ ise tt

ech |

Claims (3)

1. A DEVICE FOR MEASURING THE AVERAGE FREQUENCY OF PULSES OF A NON-STATIONARY RANDOM FLOW, containing a synchronization block, first, second and third counting units, a counter · intervals, a control unit and a switch, the first and second outputs of which are connected respectively to the summing and subtracting inputs of the second counting unit, the input of the interval counter is connected to the first output of the control unit, the second output of which is connected to the first input of the first counting unit, characterized in that, in order to improve accuracy and expand the functionality of possibilities, a selector, an arithmetic-logical unit are introduced into it, the first output of which is connected to the first input of the third counting unit, the second output is connected to the first input of the control unit, the first input is connected to the first output of the third counting unit, the second input with the third output of the block control and the third input - with the output of the selector, the first input of which is connected to the fourth, fourth output of the control unit, the second input - with the output of the counter in-. of intervals, the third input is the output of the second Flight unit, and the fourth input is the output of the first counting unit, the second input of which is connected to the first output of the synchronization unit, the input of which is the input of the device, and the second output is connected to the second input of the control unit, the fifth output of which connected to the second input of the third counting unit, and the sixth output to the first input comm ^; a torus, the second input of which is connected to the second output of the third counting unit and to the third input of the control unit. 2. The device according to claim 1, characterized in e. I mean that the synchronization block is made in the form of a time interval generator, a sync pulse generator, a delay block, a trigger, and a limit frequency lock, § the output of which is the third output of the synchronization block, the second input of which is the input of the time interval generator and the first input of the limit limit frequency, and the first input - with the second input of the clamp forces of the limit frequency and the input of the delay unit, the first output of which is connected to the R-input ... of the trigger, the second output is the first output of the synchronization unit It is connected to the trigger S-input, the output of which is connected to the third input of the limit frequency clamp and to the first input of the clock generator, the second input of which is connected to the output of the time generator: intervals, and the output is the second '[output of the synchronization block. 3. The device according to π. 1, characterized in that the control unit contains a delay element, the first, second,? third and fourth elements 2-2I-2ILI-NO, clock generator, two-bit counter, element 2I-NOT / 2I, pulse shaper, first and second adder modulo two ^ trigger, first and second elements I, element ZI-NOT, the first input of which is connected to the input ^- 2-2I of the second element 2-2I-2 OR-NOT, with the input 1-2I of the first element 2-2I-2OR-NOT and s. the output of the first adder is modulo two, the first input of which is the first input of the control unit, the second input is connected to the first input of the second AND element and to the input 2-2I of the fourth element 2-2I-2 OR-NOT, the output of which is connected to the second input of the second adder a module, two, the first input of which is connected to the second input of the 2I-NOT / 2I element, with the direct output of the highest bit of the two-digit counter, with the second input of the pulse shaper and with the input 1-.2I of the fourth element 2-2I-2 OR-NOT, inputs 1 -2and and 2-1and which are connected to the first inputs of the first of the first AND element, the second input of the pulse generator, the first input of the 2I-NOT / 2I element and with the direct output of the least significant bit of the two-bit counter, the input of two bit counter is connected to the output of the second element 2-2I-2 OR-NOT, the input 1-2 and which connected to the output of the element 2I-NOT / 2I and with; the input 2-2I of the first element 2-2I-2 OR-NOT and with the third input of the element ZI-NOT, and the input 2-1I is connected to the input 2-2I, with the second input of the element ZI-NOT, with the input 1-2I of the first element 2 -2I2OR-NOT th with the output of the clock generator, the input of which is connected to the output of the trigger, R-input of which is connected to the first output of the pulse shaper, the second output of which is connected to the inputs 2-1I, 1-2I of the Third element 2-2I2 OR-NOT, input 2-2I is connected to the trigger D input, and input 1-1I is connected to the output of the delay element, the input of which is connected to the trigger C-input, direct and and population-inverted outputs of which are connected to the 'second inputs · the first and second elements I.