RU2366354C1 - Critical flicker frequency identification unit - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to medicine and medical equipment and aims at critical flicker frequency measurement. Said unit comprises three analogue multiplexers, three resistance dividers, ten assembled voltage-to-frequency converters, ten assembled limiting amplifiers, ten assembled keys, ten assembled light pulse sources, a multiplexer, a coder, an OR component, a second pulse generator, a gate, a register, two single-shot multivibrators, a counter, a display unit and a binary counter.

EFFECT: device allows reducing measurement time owing to that it can be applied in screening studies or during veloergometry testing for level of fatigue or functional status of a person.

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Description

The invention relates to medicine and medical equipment and is intended to measure the critical frequency of light flicker.

A device for measuring the critical fusion flicker frequency, comprising a pulse generator in series, a first inhibit element, a reverse counter, a digital-to-analog converter, a voltage-frequency converter, a second inhibit element, a light pulse source, a test button connected in series, a trigger waiting for a pause multivibrator, is waiting a reset multivibrator, as well as a recorder, a comparator, and an I element, and the output of the standby reset multivibrator is connected to the second trigger input hera, the output of the voltage-frequency converter is connected to the input of the recorder, the input of the comparator is connected to the output of the digital-analog converter, and the output is connected to the input of the initial installation of the reverse counter, the first input of the element And is connected to the output of the generator, the second to the output of the trigger, and the output to the second the input of the reversible counter, the second inputs of the first and second elements of the prohibition are connected to the output of the trigger (AS USSR No. 1292734, AB 5/16).

When measuring the critical frequency of light flicker, the subject is presented with a source of light pulses with a discretely changing value of the frequency of flicker in the range of 20 ... 50 Hz with a step of 1 Hz and an exposure of 1 s. After the critical frequency of light flickers is detected, the value of the frequency of light pulses decreases by 5 Hz and the test is repeated.

A device is known for measuring the critical fusion flicker frequency, comprising a code-frequency converter, the output of which is connected to the inputs of a light pulse source and a frequency meter, a trigger, the output of which is connected to one input of the code-frequency converter and the first input of the shift register, the second input of which is connected to the output of the OR element, the first input of which is connected to the first input of the trigger and the output of the first key, and the second input to the second input of the trigger and the output of the second key, the outputs of the shift register with they are connected to other inputs of the code-frequency converter, one of the outputs of the shift register is connected to the inputs of the first and second keys (AS USSR No. 1373399, А61В 5/16).

When measuring the critical frequency of light flicker, the subject is presented with a source of light pulses with a discretely changing value of the frequency of flicker. At the first test step, the frequency of light flicker is equal to the midpoint of the zone of possible values of 20 ... 60 Hz. If the subject sees flicker, the critical frequency of light flicker is in the high-frequency part of the zone of possible values, if not, in the low-frequency part. At the second step, the subject is presented with a flicker frequency equal to the midpoint determined at the first step of the high-frequency or low-frequency part of the zone of possible values, etc. The number of steps is determined by the required measurement accuracy.

The closest in technical essence to the present invention is a device for measuring the critical frequency of light flickering, containing a linearly varying voltage generator, a voltage-frequency converter, a source of light pulses, a key that sets the generator in the mode of generation of increasing voltage, a key that sets the generator in the mode of generation of incident voltage, mode switch, toggle switch, one-shot, valve, counter, display unit, second key and second one-shot, generator l variable voltage, the voltage-frequency converter and the light pulse source are connected in series, and the key outputs are connected to the inputs of the mode switch, the normally-open output of the toggle switch is connected to the input of the one-shot, normally-closed to the input of zeroing the counter, the output of the one-shot is connected to the second input of the valve the first input of which is connected to the output of the voltage-frequency converter, the output is with the counter input of the counter, the output of the counter is connected to the input of the display unit, the output of the second key is connected nen with input of a second monoflop, whose output is connected to the third input of the mode switch (RF patent №2219821, A61V 3/00).

A disadvantage of the known devices is the large number of steps for measuring the critical frequency of light flicker, which takes considerable time. This does not allow the use of devices during mass examinations or in the process of testing by bicycle ergometry in order to assess the degree of fatigue of a person or his functional state.

The inventive device allows to reduce the measurement time, due to which it can be used during mass examinations or in the process of testing by bicycle ergometry in order to assess the degree of fatigue of a person or his functional state.

The technical result is achieved by the fact that the device contains the first and second single vibrators, a valve, a counter and an indication unit, the valve output is connected to a counter input of the counter, the output of which is connected to an input of an indication unit, the new one being that the first and third analog multiplexers are additionally introduced, first to third resistive dividers, a block of ten voltage-frequency converters, a block of ten limiting amplifiers, a block of ten keys, a block of ten light pulse sources, a multiplexer, a cipher torus, OR element, second pulse generator, register and binary counter, the first input of the first analog multiplexer is connected to the output of the third analog multiplexer, the second inputs are with the outputs of the binary counter, the first output is with the input of the second resistive divider, the second output is with the input of the third divider resistive, the input of the binary counter is connected to the output of the second one-shot, and the outputs are also connected to the fourth inputs of the second analog multiplexer, the first inputs of which are connected to the outputs of the first fir resistive, the second inputs - with the outputs of the second resistive divider, the third inputs - with the outputs of the third resistive divider, and the outputs - with the inputs of a block of ten voltage-frequency converters, a block of ten amplifier-limiters and the first inputs of the third analog multiplexer, the second inputs of which connected to the outputs of the register, the outputs of the block of ten voltage-frequency converters are connected to the inputs of the block of ten sources of light pulses and the first inputs of the multiplexer, the second inputs of which are dyned with the outputs of the register, and the output is with the first input of the valve, the output of the second pulse generator is connected to the second input of the valve and the input of the first one-shot, the output of which is connected to the counter zeroing input, the outputs of a block of ten limiter amplifiers are connected to the inputs of a block of ten keys, the outputs of which are connected to the inputs of the OR element and the inputs of the encoder, the outputs of which are connected to the first inputs of the register, the output of the OR element is connected to the input of the second one-shot, the output of which is also connected to the second input register.

The inventive device due to the introduction of three analog multiplexers, three resistive dividers, a block of ten voltage-frequency converters, a block of ten limiter amplifiers, a block of ten keys, a block of ten light pulse sources, a multiplexer, an encoder, an OR element, a second pulse generator, register and binary counter allows you to reduce the measurement time, so it can be used in mass surveys or in the process of testing by bicycle ergometry in order to assess fine human fatigue or functional status.

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

Figure 1 presents a structural diagram of the inventive device, figure 2 is a diagram of a resistive divider.

The inventive device contains the first or third multiplexers 1-3 analog, the first and third dividers 4-6 resistive, block 7 of ten voltage-frequency converters, block 8 of ten amplifier-limiters, block 9 of ten keys, block 10 of ten light sources pulses, multiplexer 11, encoder 12, element 13 OR, generator 14 of second pulses, valve 15, register 16, first to second single vibrators 17-18, counter 19, display unit 20 and counter 21 binary.

Amplifiers-limiters of block 8 are designed to generate signals of the level of a logical unit and can be performed according to the scheme of Fig.3.29a, p.94 [1].

The remaining functional units of the structural diagram correspond to the prototype or are well known.

The device operates as follows. When the power is turned on, register 16 and counters 19, 21 are reset (circuits not shown). The pulse generator 14 generates pulses with a frequency of 1 Hz supplied to the input of the first one-shot 17, which generates a short pulse at the leading edge of each pulse, resetting the counter 19. A constant voltage is applied to the input of the first resistive divider 4, from the outputs of which there are ten constant voltages through the second multiplexer 2 analog are respectively supplied to the inputs of ten voltage-frequency converters of unit 7. At the output of the first converter, a frequency of 60 Hz is formed, that is, the received upper th requirements of the range of frequencies of light flashes, the output of each inverter is formed subsequent frequency, reduced compared to the frequency at the output of the preceding inverter 3 Hz. The frequencies from the outputs of ten voltage-frequency converters of block 7 are supplied respectively to ten light sources of block 10. Constant voltages from the outputs of the second analog multiplexer 2 also go to ten amplifiers-limiters of block 8, respectively, the outputs of which are constant voltages equal to the level of a logical unit, arrive respectively at ten keys of block 9.

At the first stage, the subject determines the source of light pulses of block 10, the luminous flux of which is continuous, and closes the corresponding key of block 9, the output signal of which goes to encoder 12 and OR element 13. The private key code from the output of the encoder 12 is sent to the register 16, the signal from the output of the element 13 OR to the second one-shot 18, the pulse from the output of which writes the private key code to the register 16.

The closed key code from the output of the register 16 is supplied to the multiplexer 11, the output of which is the frequency corresponding to the light source of the unit 10, the luminous flux of which is continuous, goes to the gate 15. When the signal of the logic unit is at the output of the generator 14, the frequency from the output of the multiplexer 11 through the open valve 15 enters the counting input of the counter 19, the counting result is displayed on the indicators of the display unit 20.

The closed key code from the output of the register 16 is also sent to the third analog multiplexer 3, the inputs of which are constant voltage from the outputs of the second analog multiplexer 2. A constant voltage corresponding to the frequency of the light pulse source, determined at the first stage by the subjects as a source whose light flux is continuous, is fed to the input of the first analog multiplexer 1.

The signal from the output of the second one-shot 18 also goes to the counting input of the binary counter 21, the counting result goes to the first and second analog multiplexers 1 and 2. The constant voltage from the output of the first analog multiplexer 1 is supplied to the second resistive divider 5, the constant voltages from the outputs of which through the second analog multiplexer 2 are respectively supplied to the inputs of ten voltage-frequency converters of unit 7. At the output of the first converter, a frequency corresponding to the frequency of the light pulse source is generated, defined at the first stage by the test subject as a source, the luminous flux of which is continuous, at the output of each subsequent converter forms I frequency, reduced compared to the frequency at the output of the preceding inverter at 0.4 Hz. The rest of the circuit works in the same way as described above.

At the second stage, the subject determines the source of light pulses of block 10, the luminous flux of which is continuous, and closes the corresponding key of block 9, the output signal of which goes to encoder 12 and OR element 13. The rest of the circuit works in the same way as described above.

In this case, the private key code from the output of the register 16 is supplied to the third analog multiplexer 3, the inputs of which are constant voltage from the outputs of the second analog multiplexer 2. A constant voltage corresponding to the frequency of the source of light pulses, determined at the second stage by the subjects as a source whose light flux is continuous, is fed to the input of the first analog multiplexer 1.

The signal from the output of the second one-shot 18 enters the counting input of the binary counter 21, the counting result enters the first and second analog multiplexers 1 and 2. The constant voltage from the output of the first analog multiplexer 1 is supplied to the third resistive divider 6, the constant voltages from the outputs of which through the second analog multiplexer 2 are respectively supplied to the inputs of ten voltage-frequency converters of block 7. At the output of the first converter, a frequency corresponding to the frequency of the light pulse source is generated, defined at the second stage by the test subject as a source, the luminous flux of which is continuous, at the output of each subsequent converter forms I frequency, reduced compared to the frequency at the output of the preceding inverter at 0.1 Hz.

At the third stage, the test subject determines the source of light pulses of block 10, the luminous flux of which is continuous, and closes the corresponding key of block 9, the output signal of which goes to encoder 12 and OR 13 element. The rest of the circuit works in the same way as described above.

After reading the value of the critical frequency of light flickering from the indicators of the display unit 20, the test subject sets the device into its initial state by short-circuiting the key (circuits not shown).

Thus, the inventive device allows to reduce the measurement time, so it can be used during mass screenings or during testing by bicycle ergometry in order to assess the degree of fatigue of a person or his functional condition.

The source of information

1. Frolkin V.T., Popov L.N. Pulse and digital devices. - M .: Radio and communications, 1992 .-- 336 p.

Claims (1)

A device for measuring the critical frequency of light flickering, containing the first and second one-shots, a valve, a counter and an indication unit, the output of the valve is connected to a counter input of the counter, the output of which is connected to an input of the indicator unit, characterized in that the first and third analog multiplexers are additionally introduced into it , the first and third resistive dividers, a block of ten voltage-frequency converters, a block of ten limiting amplifiers, a block of ten keys, a block of ten light pulse sources, multip lexor, encoder, OR element, second pulse generator, register and binary counter, the first input of the first analog multiplexer is connected to the output of the third analog multiplexer, the second inputs are with the outputs of the binary counter, the first output is with the input of the second resistive divider, the second output is with the input the third resistive divider, the input of the binary counter is connected to the output of the second one-shot, and the outputs are also connected to the fourth inputs of the second analog multiplexer, the first inputs of which are connected to the outputs the first resistive divider, the second inputs - with the outputs of the second resistive divider, the third inputs - with the outputs of the third resistive divider, and the outputs - with the inputs of a block of ten voltage converters - frequency, a block of ten limiter amplifiers and the first inputs of the third analog multiplexer, second inputs which are connected to the outputs of the register, the outputs of the block of ten voltage-frequency converters are connected to the inputs of the block of ten sources of light pulses and the first inputs of the multiplexer, the second inputs of which are connected to the outputs of the register, and the output is connected to the first input of the valve, the output of the second pulse generator is connected to the second input of the valve and the input of the first one-shot, the output of which is connected to the input of zeroing the counter, the outputs of a block of ten amplifier-limiters are connected to the inputs of a block of ten keys, the outputs of which are connected to the inputs of the OR element and the inputs of the encoder, the outputs of which are connected to the first inputs of the register, the output of the OR element is connected to the input of the second one-shot, the output of which is also connected with the second input of the register.

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