RU2450787C1 - Measurement unit for pass band of spatial frequency channel of visual system - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to medical equipment and aims at measuring a pass band of a spatial frequency channel of the visual system. A unit comprises first-fourth keys, first-second toggle switches, first-fifth gates, a shift register, first-second mode switches, first-second triggers, first-second NO elements, first-second ramp voltage generators, a multiplexer, first-fifth single vibrators, first-second OR elements, first-second voltage-to-frequency converters, first-second light pulse source units, a second pulse generator, a calculator, a mean value calculator, a counter and first-second display units.

EFFECT: measurement unit provides higher accuracy of measuring the pass band of the spatial frequency channel of the visual system that is ensured by simultaneous presentation of initial and incremental at first, and then initial and decrement flicker frequencies that enables avoiding long-time logical-semantic memory.

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Description

The invention relates to medical equipment and is intended to determine the bandwidth of the spatial-frequency channel of the visual system.

A device based on a computer for studying the spatial-frequency channels of the human visual system by presenting sinusoidal arrays with different spatial frequencies [1].

For the formation of images of various shapes — the world of variable contrast, different spatial frequency with a sinusoidal brightness profile, two-dimensional arrays with a sinusoidal brightness distribution, a programmable synthesizer is known that contains a microcomputer, an interface, a control synchronization unit, a test answer input panel, buffer video memory, a digital-to-analog converter, video monitoring device, operator terminal and plotter [2, Fig. 38, p. 68]. The images being formed are displayed on the screen of the video monitoring device, the test subject’s response is entered into the computer by pressing the buttons “see” and “do not see” [2, p. 84].

The disadvantages of the known devices are the long preparatory period, the need for sophisticated special equipment, the complexity of research.

Closest to the technical nature of the present invention is a device for determining the bandwidth of the spatial frequency channel of the visual system, comprising a mode switch, a ramp generator, a voltage-frequency converter, a light pulse source, a shift register, an OR element, a calculator and a block of indicators, moreover, the output of the mode switch is connected to the input of the ramp generator, the output of the OR element is connected to the first input of the calculator plug, the output of the voltage-frequency converter is connected to the input of the light pulse source and to the second input of the calculator, characterized in that it additionally includes the first and second toggle switches, the first to third keys, the first to fifth valves, the first and second triggers, the first and second NOT elements, an analog storage device, an analog multiplexer, a first to fifth one-shot, a second OR element, a second pulse generator, an average value calculator, a counter and a second block of indicators, the outputs of the first and second t mblers are connected to the inputs of the mode switch, the normally closed output of the first toggle switch is also connected to the V-input of the first trigger and to the input of the first element NOT, the output of which is connected to the V-input of the second trigger, the outputs of the first and third keys are connected respectively to the first inputs of the first and second gates and with the input of the shift register, the first output of which is connected to the input of the first one-shot, the second output is with the D-input of the first trigger, the third output is with the D-input of the second trigger, the outputs of the first and second valves are connected are connected to the inputs of the mode switch, the output of the first one-shot is connected to the first input of the analog storage device, the output of which is connected to the second input of the analog multiplexer, the output of the ramp generator is connected to the second input of the analog storage device and to the first input of the analog storage multiplexer, the output of which is connected to the input voltage-frequency converter, the output of the second pulse generator is connected to the second inputs of the first and second valves, with the first inputs of the third and fifth gates, the input of the second element NOT, the input of the fifth one-shot, the address input of the analog multiplexer and the C-input of the first trigger, the output of which is connected to the second input of the third gate, the output of the second element is NOT connected to the first input of the fourth valve and C-input the second trigger, the output of which is connected to the second input of the fourth gate, the outputs of the third and fourth gates are connected respectively to the first and second inputs of the second OR element, the output of which is connected to the inputs of the second and third a single vibrator, the output of the second single vibrator is connected to the first input of the first OR element, the output of the third single vibrator is connected to the input of the fourth single vibrator and the second input of the first OR element, the output of the calculator is connected to the first input of the average value calculator, the second input of which is connected to the output of the fourth single vibrator, and the output is with the input of the first block of indicators, the output of the voltage-frequency converter is connected to the second input of the fifth valve, the output of which is connected to the counting input of the meter, the input of resetting the meter is Din with the output of the fifth one-shot, and the output with the input of the second block of indicators [3].

The disadvantage of this device is the low accuracy of determining the bandwidth of the spatial-frequency channel of the visual system, due to the need to use memory functions, in particular, access to long-term logical-semantic memory.

The technical result of the proposed device for determining the bandwidth of the spatial frequency channel of the visual system is to increase the measurement accuracy.

The technical result is achieved by the fact that the device contains a mode switch, a ramp generator, a voltage-frequency converter, a light pulse source, a shift register, the first or second OR elements, a calculator, an average value calculator, the first or second indicator blocks, the first to fifth valves , the first and second triggers, the first and second elements are NOT, the first to fifth single vibrators, second pulse generator, counter, the first to third keys and the first to second toggle switches, the output of the mode switch connected to the input of the ramp generator, the output of the first OR element is connected to the first input of the calculator, the output of the voltage-frequency converter is connected to the input of the light pulse source and to the second input of the fifth valve, the normally closed output of the first toggle switch is connected to the V-input of the first trigger and the input of the first element NOT, the output of which is connected to the V-input of the second trigger, the outputs of the first and second keys are connected respectively to the first inputs of the first and second valves, the outputs of which are connected with the inputs of the mode switch, the output of the third key is connected to the input of the shift register, the output of the second pulse generator is connected to the first inputs of the third and fifth valves, the input of the second element is NOT, the input of the fifth one-shot and with the C-input of the first trigger, the output of which is connected to the second input of the third gate, the output of the second element is NOT connected to the first input of the fourth valve and to the C-input of the second trigger, the output of which is connected to the second input of the fourth valve, the outputs of the third and fourth valves are connected to accordingly, with the first and second inputs of the second OR element, the output of which is connected to the inputs of the second and third one-shots, the output of the second one-shot is connected to the first input of the first OR, the output of the third one-shot - with the input of the fourth one-shot and the second input of the first OR, the output of the calculator is connected to the first input of the average value calculator, the second input of which is connected to the output of the fourth one-shot, and the output - to the input of the first block of indicators, the output of the fifth valve is connected to the counting input the counter, the counter zeroing input is connected to the output of the fifth one-shot, and the output is connected to the input of the second indicator block, and the new one is that a second mode switch, a second ramp generator, a second voltage-frequency converter, a second light-pulse source, multiplexer are additionally introduced and a fourth key, wherein the output of the fourth key is connected to the input of the first one-shot, the outputs of the first and second keys are also connected respectively to the first and second inputs of the second switch mode switch, the third and fourth inputs of which are connected respectively to the normally closed and normally open outputs of the first toggle switch, the fifth and sixth inputs are respectively to the normally closed and normally open outputs of the second toggle switch, the seventh input is to the output of the first one-shot, and the output is to the input of the second a ramp generator, the output of which is connected to the input of the second voltage-frequency converter, the output of the second voltage-frequency converter is connected to the input of the second source light pulses and the second input of the multiplexer, the first input of which is connected to the output of the voltage-frequency converter, the address input is the output of the second pulse generator, and the output is the second input of the calculator, the first output of the shift register is connected to the second inputs of the first and second valves, the third and the fourth outputs, respectively, with the D-inputs of the first and second triggers, the output of the ramp voltage is connected to the input of the voltage-frequency converter.

The inventive device due to the introduction of a second mode switch, a second linear voltage generator, a second voltage-frequency converter, a second light pulse source, a multiplexer and a fourth key can improve the accuracy of determining the bandwidth of the spatial-frequency channel of the visual system due to the elimination of the need to refer to the long-term logical and semantic memory.

Thus, the claimed device differs from the known new property, which determines the receipt of a positive effect.

Figure 1 presents the structural diagram of the inventive device, figure 2-3 - time diagrams of the change in the frequency of light flicker presented to the subject.

The inventive device contains first to fourth 1-4 keys, first 5 and second 6 toggle switches, first to fifth 7-11 gates, shift register 12, first 13 and second 14 mode switches, first 15 and second 16 triggers, first 17 and second 18 NOT elements, the first 19 and second 20 linearly varying voltage generators, multiplexer 21, first-fifth 22-26 single vibrators, first 27 and second 28 OR elements, first 29 and second 30 voltage-frequency converters, first 31 and second 32 light pulse sources , 33 second pulse generator, calculator 34, will calculate 35 l mean value, the counter 36, the first 37 and second 38 indicators blocks.

The first toggle switch 5 is designed to set the installation modes of incremental and decrement frequencies of light flicker.

The second toggle switch 6 is designed to set the installation modes of the initial frequency of light flicker and measure the bandwidth of the spatial-frequency channel of the visual system.

The first 1 key is designed when the second toggle switch 6 is in the “Initial frequency setting” position for setting the generators 19-20 in the ramp mode, corresponding to a change in the frequency at the output of the 29-30 voltage-frequency converters at a speed of 0.5 Hz / s; when the second toggle switch 6 is in the "Bandwidth measurement" position and the first toggle switch 5 is in the "Incremental frequency" position to set the generator 20 to the ramp mode, corresponding to a change in the frequency at the output of the voltage-frequency converter 30 at a speed of 0.5 Hz /from; when the second toggle switch 6 is in the “Measuring bandwidth” position and the first toggle switch 5 is in the “decrement frequency” position to set the generator 20 to the linearly incident voltage generation mode corresponding to the frequency change at the output of the voltage-frequency converter 30 at a speed of 0.5 Hz /from.

The second 2 key is designed when the second toggle switch 6 is in the “Set initial frequency” position to set the generators 19-20 to the linearly incident voltage generation mode, corresponding to the frequency change at the output of the 29-30 voltage-frequency converters at a speed of 0.5 Hz / s; when the second toggle switch 6 is in the "Bandwidth measurement" position and the first toggle switch 5 is in the "Incremental frequency" position to set the generator 20 to the mode of linearly incident voltage corresponding to a change in the frequency at the output of the voltage-frequency converter 30 at a speed of 0.25 Hz /from; when the second toggle switch 6 is in the “Bandwidth measurement” position and the first toggle switch 5 is in the “Decreasing frequency” position to set the generator 20 to the ramp mode, corresponding to the frequency change at the output of the voltage-frequency converter 30 at a speed of 0.25 Hz /from.

The fourth key 4 is designed when the second toggle switch 6 is in the “Bandwidth measurement” position and the first toggle switch 5 is in the “Incremental frequency” position to increase the frequency at the output of the converter 30 voltage-frequency by 0.1 Hz; when the second toggle switch 6 is in the “Measuring bandwidth” position and the first toggle switch 5 is in the “decrement frequency” position to reduce the frequency at the output of the voltage-frequency converter 30 by 0.1 Hz.

The remaining functional nodes of the structural diagram of the claimed device are well known or correspond to similar functional nodes of the structural diagram of the prototype.

The device operates as follows. In the initial state, the toggle switch 5 is in the position corresponding to the setting mode of the incremental frequency of light flickers, the toggle switch 6 is in the position corresponding to the setting mode of the initial frequency of light flickering, as shown in Fig.1. When the power is turned on, the code 1000 is written to the shift register 12, the signal of the logical unit from the first output of the register 12 opens the valves 7-8, the triggers 15-16 are turned off, the counter 36 is reset (the chains are not shown), the generator 33 generates 1 second pulses at the output, generators 19-20 produce the same constant voltage at the output, corresponding to the frequency of light flickering at the output of the converters 29-30, equal to 25 Hz, that is, the average frequency of the accepted visible range of light flicker from 0 to 50 Hz. The same constant voltage from the outputs of the generators 19-20 are supplied to the converters 29-30, where they are converted to a frequency that controls the sources 31-32. When the signal is a logical unit at the output of the generator 33, the fifth 11th valve opens. On the leading edge of each signal of a logical unit from the output of the generator 33, the fifth 26 single-vibrator generates a short pulse, resetting the counter 36. The frequency from the output of the converter 29 through the open fifth 11 valve is supplied to the counting input of the counter 36, the counting result is displayed on the second 38 indicator block.

The test closure of the keys 1 or 2 sets a given initial F _n frequency of light flicker, taken as the average frequency of the determined bandwidth of the spatial frequency channel of the visual system.

To set the initial F _H light flicker frequency greater than 25 Hz, the subject closes the first 1 key. The signal from the output of the first 1 key through the open first 7 valve and the mode switch 13 and through the mode switch 14, respectively, is transmitted to the generators 19-20 and sets them to the mode of linearly increasing voltage generation at a given speed. Managing sources 31-32 and outputting the result of counting the frequency of light flickers to the second 38 block of indicators is carried out in the same way as described above.

To set the initial F _H light flicker frequency, less than 25 Hz, the subject closes the second 2 key. The signal from the output of the second 2 keys through the open second 8 valve and the mode switch 13 and through the mode switch 14 is respectively supplied to the generators 19-20 and sets them to the mode of generating a linearly incident voltage at a given speed. Managing sources 31-32 and outputting the result of counting the frequency of light flickers to the second 38 block of indicators is carried out in the same way as described above.

When you open the first 1 or second 2 keys (figure 2, time T ₀ ), the generators 19-20 maintain a constant voltage output corresponding to the set initial F _N light flicker frequency at the output of the converters 29-30 (figure 2, the time interval T ₀ -T ₁ ). Managing sources 31-32 and outputting the result of counting the frequency of light flickers to the second 38 block of indicators is carried out in the same way as described above.

The test subject briefly closes the third 3 key. The pulse from the output of the third 3 keys shifts the state of register 12 by one bit to the right, valves 7-8 are closed.

The test subject sets the second 6 toggle switch to the position corresponding to the measuring mode of the passband, and closes the first 1 key (figure 2, time T ₁ ). The signal from the output of the first 1 key through the switch 14 modes sets the generator 20 in the mode of generating a ramp voltage with a given speed (figure 2, the time interval T ₁ -T ₂ ). Managing sources 31-32 and outputting the result of counting the frequency of light flickers to the second 38 block of indicators is carried out in the same way as described above.

On the time interval T ₁ -T _{2, the} test subject determines the moment when the incremental F _I and the initial F _H presented at the same time flash light frequencies are different, and the first 1 key opens (Fig. 2, time point T ₂ , light flash frequency F _I1 ), generator 20 stores the set constant voltage at the output (FIG. 2, time interval T ₂ -T ₃ ). Managing sources 31-32 and outputting the result of counting the frequency of light flickers to the second 38 block of indicators is carried out in the same way as described above.

The test person closes the second 2 key (figure 2, time T ₃ ). The signal from the output of the second 2 keys through the switch 14 modes sets the generator 20 in the mode of generating a linearly incident voltage with a given speed (figure 2, the time interval T ₃ -T ₄ ). Managing sources 31-32 and outputting the result of counting the frequency of light flickers to the second 38 block of indicators is carried out in the same way as described above.

On the time interval T ₃ -T _{4, the} test subject determines the moment when the incremental F _I and the initial F _H presented at the same time frequencies of light flicker do not differ, and opens the second 2 key (Fig. 2, time point T ₄ , light flicker frequency T _{AND 2} ), the generator 20 stores the output constant voltage (figure 2, the time interval T ₄ -T ₅ ). Managing sources 31-32 and outputting the result of counting the frequency of light flickers to the second 38 block of indicators is carried out in the same way as described above.

The test subject closes the fourth 4 key briefly. The signal from the output of the fourth 4 key is fed to the first one-shot 22, which generates a pulse along its leading edge, which sets the generator 20 through the mode switch 14 to the mode of linearly increasing voltage generation at a given speed. The duration of the pulse generated by the single-shot 22 corresponds to an increase in the frequency at the output of the converter 30 by 0.1 Hz (FIG. 2, point in time T ₅ ). Next, the test subject closes the fourth 4 keys briefly the required number of times until he determines the moment when the incremental F _I and the initial F _N frequencies of flash flickers are presented at the same time (FIG. 2, time point T ₆ , flash frequency F _F3 ), the generator 20 stores the output is a fixed constant voltage (figure 2, the time interval T ₆ -T ₇ ). Managing sources 31-32 and outputting the result of counting the frequency of light flicker to the second 38 block of indicators is carried out in the same way as described above.

The test subject shortly closes the third 3 key (figure 2, time T ₇ ). The pulse from the output of the third 3 keys shifts the state of the register 12 by one bit to the right, the signal of the logical unit from the third output of the register 12 is fed to the D-input of the first 15 trigger, at the V-input of which there is a signal of the logical unit from the normally closed output of the first 5 toggle switch.

When the logic unit signal at the output of the generator 33, the established incremental F _I3 frequency of light flickers from the output of the converter 30, the voltage-frequency through the multiplexer 21 goes to the calculator 34, when the signal is a logical zero at the output of the generator 33 to the calculator 34 through the multiplexer 21 the set initial frequency F _N light flickering from the output of the Converter 29 voltage-frequency.

On the leading edge of the signal of the logical unit from the output of the generator 33, the first 15 trigger is turned on, the signal from its output opens the third 9th gate, the signal of the logical unit from the output of the generator 33 through the open third 9th gate and the second 28th OR element is fed to the second 23 and third 24 single-vibrators. On the leading edge of the signal of the logical unit from the output of the second OR element 28, the second 23 single-vibrator generates a pulse transmitted through the first 27 OR element to the computer 34, in which the value of the established incremental F _AND3 light flicker frequency is recorded. On the trailing edge of the signal of the logical unit, from the output of the second 28th OR element, the third 24th single-vibrator generates a pulse arriving at the fourth 25th single-vibrator and through the first 27th OR element to the calculator 34, in which the value of the set initial F _N light flicker frequency is recorded.

The calculator 34 calculates the difference of the fixed frequencies ΔF _И = F _И3 -F _Н , the value of which is supplied to the calculator 35. On the trailing edge of the pulse from the output of the third 24 one-shot, the fourth 25 one-shot generates a pulse, according to which the value of the frequency difference ΔF _{And is} written to the calculator 35.

The test subject sets the first 5 toggle switch to the position corresponding to the setting mode of the decrement frequency of light flickers. At the normally closed output of the first 5 toggle switch, a logic zero signal is set, which is fed to the first 17 element NOT. Testing the closure of the second 2 keys sets the specified initial F _N frequency of light flicker at the output of the Converter 30 in the same way as described above. The established initial F _H light flicker frequency controls the source 32 (Fig. 3, the time interval T ₈ -T ₉ ), the source 31 is controlled and the result of counting the light flicker frequency to the second block 38 of the indicators is carried out in the same way as described above.

The test person closes the first 1 key (figure 3, time T ₉ ). The signal from the output of the first 1 key through the switch 14 modes sets the generator 20 in the mode of generating a linearly incident voltage at a given speed (figure 2, the time interval T ₉ -T ₁₀ ). Managing sources 31-32 and outputting the result of counting the frequency of light flickers to the second 38 block of indicators is carried out in the same way as described above.

In the time interval T _10, -T ₉ test determines when requirements simultaneously decremental F _D F _H and the initial frequency of light flashes different and opens the first key 1 (Figure 3, at time T _10, the frequency of light flashes F _D1) generator 20 stores the set constant voltage at the output (Fig. 3, time interval T ₁₀ -T ₁₁ ). Managing sources 31-32 and outputting the result of counting the frequency of light flickers to the second 38 block of indicators is carried out in the same way as described above.

The test subject closes the second 2 key (figure 3, time T ₁₁ ). The signal from the output of the second 2 keys through the switch 14 modes sets the generator 20 in the mode of generating ramp voltage with a given speed (figure 3, the time interval T ₁₁ -T ₁₂ ). Managing sources 31-32 and outputting the result of counting the frequency of light flickers to the second 38 block of indicators is carried out in the same way as described above.

In the time interval T ₁₁ -T ₁₂ test determines when requirements simultaneously decremental F _D F _H and the initial frequency of light flashes does not vary, and opens the second switch 2 (Figure 3, at time T _12, the frequency of light flashes F _D2), the generator 20 stores the output constant voltage (Fig. 3, the time interval T ₁₂ -T ₁₃ ). Managing sources 31-32 and outputting the result of counting the frequency of light flickers to the second 38 block of indicators is carried out in the same way as described above.

The test subject closes the fourth 4 key briefly. The signal from the output of the fourth 4 key is fed to the first one-shot 22, which generates a pulse along its leading edge, which sets the generator 20 through the mode switch 14 to the mode of generating a linearly incident voltage at a given speed. The duration of the pulse generated by the single-shot 22 corresponds to a decrease in the frequency at the output of the converter 30 by 0.1 Hz (Fig. 3, time point T ₁₃ ). Further subject momentarily closes the fourth switch 4 the required number of times until it determines when requirements simultaneously decremental F _D F _H and the initial frequency of light flashes different (Figure 3, at time T _14, the frequency of light flashes F _D3) generator 20 stores the output constant voltage (Fig. 3, the time interval T ₁₄ -T ₁₅ ). Managing sources 31-32 and outputting the result of counting the frequency of light flickers to the second 38 block of indicators is carried out in the same way as described above.

The test subject briefly closes the third 3 key (figure 3, time T ₁₅ ). The pulse from the output of the third 3 keys shifts the state of the register 12 by one bit to the right, the signal of the logical unit from the fourth output of the register 12 is fed to the D-input of the second 16 trigger, at the V-input of which there is a signal of the logical unit from the output of the first 17 NOT elements.

When the logic unit signal at the output of the generator 33, the decrement F _F3 frequency is set to the light flicker from the output of the converter 30, the voltage-frequency through the multiplexer 21 is supplied to the calculator 34, when the signal is a logic zero at the output of the generator 33, the set initial F _H frequency is supplied to the calculator 34 through the multiplexer 21 light flickering from the output of the Converter 29 voltage-frequency.

When a logic zero signal at the output of the generator 33 at the output of the second 18 element is NOT set to the level of the logical unit. On its leading edge, the second 16 trigger turns on, the signal from its output opens the fourth 10th gate, the signal of the logical unit from the output of the second 18th element NOT through the open fourth 10th gate and the second 28th OR gate is supplied to the second 23th and third 24th one-shot. On the leading edge of the signal of the logical unit at the output of the second OR element 28, the second 23 single-vibrator generates a pulse transmitted through the first 27 OR element to the computer 34, in which the value of the set initial F _N light flicker frequency is recorded. On the trailing edge of the signal of the logical unit at the output of the second 28 OR element, the third 24 single-vibrator generates a pulse arriving at the fourth 25 single-vibrator and through the first 27 OR element to the computer 34, in which the value of the established decrement F _F3 light flicker frequency is recorded.

The calculator 34 calculates the difference in the fixed frequencies ΔF _D = F _H -F _D3 , the value of which is supplied to the calculator 35. On the trailing edge of the pulse from the output of the third 24 single vibrator, the fourth 25 single vibrator generates a pulse, according to which the value of the frequency difference ΔF _{D is} written to the calculator 35. The calculator 35 calculates the arithmetic mean of the frequency differences ΔF = (ΔF _AND + ΔF _D ) / 2, equal to the passband of the spatial-frequency channel of the visual system, the calculation result is displayed on the first 37 block of indicators. At the end of the process, the calculator 35 generates a pulse that sets the device to its original state (circuits not shown).

Thus, the claimed device allows to increase the accuracy of determining the bandwidth of the spatial frequency channel of the visual system due to the simultaneous presentation of first the initial and incremental, then the initial and decrement frequencies of light flickers, which eliminates the need for long-term logical-semantic memory.

Information sources

1. Perizonius Eckart, Schill Wolfgang, Geiger Hans, Rohier Ralner. Evidence on the local character of spatial frequency channels in the human visual system. // Vision Res. - 1985. - V.25. - No. 9. - P.1233-1240.

2. Shelepin Yu.E., Kolesnikova LN, Levkovich Yu.I. Visocontrastometry: Measurement of the spatial transfer functions of the visual system. L .: Nauka, 1985 .-- 103 p.

3. RF patent 2252690, IPC A61B 3/02. Device for determining the bandwidth of the spatial frequency channel of the visual system / T.A. Lezhnina, V.V. Rozhentsov (RF). - Publ. 05/27/2005, Bull. No. 15.

Claims (1)

A device for determining the bandwidth of the spatial frequency channel of the visual system, comprising a mode switch, a ramp generator, a voltage-frequency converter, a light pulse source, a shift register, first or second OR elements, a calculator, an average value calculator, the first or second indicator blocks , first to fifth gates, first and second triggers, first and second elements NOT, first to fifth one-shots, second pulse generator, counter, first to third keys and first second and second toggle switches, the output of the mode switch is connected to the input of a ramp generator, the output of the first OR element is connected to the first input of the calculator, the voltage-frequency converter output is connected to the input of the light pulse source and to the second input of the fifth valve, the normally closed output of the first toggle switch is connected with the V-input of the first trigger and the input of the first element NOT, the output of which is connected to the V-input of the second trigger, the outputs of the first-second keys are connected respectively to the first inputs of the of the second and second gates, the outputs of which are connected to the inputs of the mode switch, the output of the third key is connected to the input of the shift register, the output of the second pulse generator is connected to the first inputs of the third and fifth valves, the input of the second element is NOT, the input of the fifth one-shot and with the C-input of the first trigger the output of which is connected to the second input of the third valve, the output of the second element is NOT connected to the first input of the fourth valve and to the C-input of the second trigger, the output of which is connected to the second input of the fourth valve, the outputs of the third and fourth gates are connected respectively to the first and second inputs of the second OR element, the output of which is connected to the inputs of the second and third one-shots, the output of the second one-shot is connected to the first input of the first OR, the output of the third one-shot to the input of the fourth one-shot and the second input of the first element OR, the output of the calculator is connected to the first input of the average value calculator, the second input of which is connected to the output of the fourth one-shot, and the output is connected to the input of the first block indicator c, the output of the fifth gate is connected to the counter input of the counter, the zeroing input of the counter is connected to the output of the fifth one-shot, and the output is connected to the input of the second block of indicators, characterized in that a second mode switch, a second ramp generator, and a second voltage converter are additionally introduced into it -frequency, a second source of light pulses, a multiplexer and a fourth key, and the output of the fourth key is connected to the input of the first one-shot, the outputs of the first and second keys are also connected respectively with the first and second inputs of the second mode switch, the third and fourth inputs of which are connected respectively to the normally closed and normally open outputs of the first toggle switch, the fifth and sixth inputs are respectively to the normally closed and normally open outputs of the second toggle switch, the seventh input is to the output of the first one-shot and the output is with the input of the second linearly varying voltage generator, the output of which is connected to the input of the second voltage-frequency converter, the output of the second converter to voltage-frequency is connected to the input of the second source of light pulses and the second input of the multiplexer, the first input of which is connected to the output of the voltage-frequency converter, the address input to the output of the second pulse generator, and the output to the second input of the calculator, the first output of the shift register is connected to the second the inputs of the first and second gates, the third and fourth outputs, respectively, with the D-inputs of the first and second triggers, the output of the ramp generator is connected to the voltage input of the converter frequency

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