RU2223693C1 - Device for determining critical flicker fusion frequency measurement accuracy - Google Patents

Abstract

FIELD: medical engineering. SUBSTANCE: device has mode switch, linearly varying voltage generator, voltage-to-frequency converter, luminous pulse source, calculator unit, display unit, five keys like Continuous frequency increase, Continuous frequency reduction, Discrete frequency increase, Discrete frequency reduction, Frequency recording and three monovibrators. EFFECT: high accuracy of measurements. 2 dwg

Description

 The invention relates to medicine and is intended to determine the accuracy of measuring the critical frequency of flicker fusion.

 A device for measuring the critical frequency of light flickering, containing the first trigger, generator, voltage-frequency converter, connected in series the first and second waiting multivibrators, as well as a comparator, recorder, light pulse source, test button, start button, second and third triggers, switch modes, counter, code generator, failure indicator, and one generator output is connected to the comparator input, and the other to the converter input voltage - frequency, output cat It is connected to the first input of the recorder and light sources, the input of the malfunction indicator is connected to the output of the comparator, the outputs of the first, second and third triggers are connected via the mode switch to the generator input, the start button is connected to the first input of the first trigger by the second output, and the second to the first counter input, the test button is connected to the second input of the first trigger, the input of the first standby multivibrator, the first input of the second trigger and the second input of the counter, the outputs of the first and second waiting mules ivibratorov respectively connected to a first input of the third flip-flop, a second input of the registrar and the second inputs of the second and third flip-flops, the code generator is coupled to the third input of the counter (AS USSR 1149935, MKI A 61 V 3/00).

 In this device, the critical frequency of light flicker is determined with a linearly increasing frequency of light flicker.

 A device is known for measuring the critical fusion flicker frequency, comprising a serially connected response switch unit, a generator automatic control unit, a rectangular pulse generator, an electric to light signal converter, as well as a frequency meter, an image generator, serially connected cut-out position generator and a set point, and a frequency meter input connected to the second output of the rectangular pulse generator, the first output of the master is connected to the input of the switch unit, and the second - with the first input of the cut-out position generator, the output of which is connected to the second input of the electric signal to light converter, the outputs of the image generator are connected to the second input of the cut-out position generator and the third input of the electric to light signal converter (AS USSR 1255103, MKI A 61 At 3/00).

 In this device, the critical fusion flicker frequency is determined by gradually decreasing the frequency of the rectangular pulse generator.

 A device for measuring the critical fusion flicker frequency, comprising a pulse generator connected to a frequency divider, a program unit, a reversible counter, a test reaction fixation element connected to a program unit, a code-frequency converter, a pulse former, a light source, and a second reversible counter , a switch, a processing unit and a pulse train driver, wherein the output of the latching element is connected to a controlled input of the pulse train driver, a signal the input of which is connected to the output of the generator, and the output to the second input of the program unit, the third input of which is connected to the output of the frequency divider, the outputs of the program unit are connected respectively: the first and third to the information inputs of the reversing counters, the second to the controlled inputs of the reversing counters and switch, the fourth and fifth - with the first and second controlled inputs of the processing unit, while the outputs of the reversible counters are connected to the information inputs of the switch, the output of which is connected to the information nym inputs of a code-frequency converter and the processing unit (AS USSR 1498460, MKI A 61 B 5/16).

 In this device, the critical flicker fusion frequency is determined in two cycles: with an increase in the flicker frequency and with a decrease in the flicker frequency. The value of the critical flicker fusion frequency is determined as the arithmetic mean of measurements performed in two cycles.

 The concept of suprathreshold flicker fusion frequency is known, when the critical flicker fusion frequency is determined with an increase in the flicker frequency (A.S. USSR 1498460, MKI A 61 V 5/16). The concept of a subthreshold flicker fusion frequency is known, when the critical flicker fusion frequency is determined by decreasing the flicker frequency (RF patent 2164778, MKI A 61 B 5/16).

 However, when conducting experimental studies, it was found that each of the subjects determines the values of the suprathreshold frequency individually - from the criterion “clearly does not flicker” to the criterion “does not seem to flicker”, and the value of the subthreshold frequency - from the criterion “clearly flickers” to the criterion “seems to flicker " The difference between the criteria “clearly does not flicker” and “does not seem to flicker”, and also between the criteria “clearly flickers” and “seems to flicker” is of the order of 0.2-0.4 Hz, and, therefore, in the known devices the subthreshold and subthreshold values frequencies are determined with such accuracy. In this case, the value of the frequency of flicker of light pulses, perceived subjectively by the subject as "the source does not flicker", is the maximum allowable supra-threshold value of the critical frequency of fusion of flickers. The value of the flicker frequency of light pulses, perceived subjectively by the subjects as “the source does not seem to flicker,” is the minimum allowable supra-threshold value of the critical fusion flicker frequency. The value of the flicker frequency of light pulses, perceived by the subject subject as “a source clearly flickers”, is the minimum allowable sub-threshold value of the critical fusion flicker frequency. The value of the flicker frequency of light pulses, perceived subjectively by the subject as “the source seems to flicker,” is the maximum allowable sub-threshold value of the critical fusion flicker frequency.

 The determined accuracy of measuring the critical fusion flicker frequency is taken to be equal to the frequency difference between the minimum allowable subthreshold and maximum allowable subthreshold values of the critical fusion flicker frequency.

 Closest to the technical nature of the present invention is a device for studying the critical flicker fusion frequency, containing a test button, first, second and third triggers, first and second waiting multivibrators, a mode switch, a ramp generator, a voltage-frequency converter, a light pulse source , a comparator, a failure indicator, a shift register, an OR element, a calculator and an indication unit, the generator output being connected to the comparator and converter inputs An indicator is voltage - frequency, the outputs of which are connected respectively to the inputs of the failure indicator and the source of light pulses, the outputs of the first, second, and third triggers are connected via a mode switch to the generator input, the output of the first standby multivibrator is connected to the first input of the second trigger and the input of the second standby multivibrator, output which is connected to the second inputs of the second and third triggers, the test button output is connected to the input of the shift register, the first output of which is connected to the first input m of the first trigger, the second output - with the second input of the second trigger and the input of the first waiting multivibrator, the third output - with the first input of the OR element and the third trigger, the second input of the OR element is connected to the output of the first waiting multivibrator, and the output - with the first input of the calculator, the second the input of which is connected to the output of the voltage-frequency converter, and the output is connected to the input of the indicator block (RF patent 2026008, MKI A 61 V 5/16).

 A disadvantage of the known devices is the inability to determine the accuracy of measuring the critical fusion flicker frequency.

 The claimed invention allows to determine the accuracy of measuring the critical frequency of the fusion flicker.

 In the present invention, in a device for studying the critical flicker fusion frequency, comprising a mode switch, a ramp generator, a voltage-to-frequency converter, a light pulse source, a calculator and an indication unit, wherein the output of the mode switch is connected to the generator input, the output of which is via a voltage converter - the frequency is connected to the input of the light pulse source and the second input of the calculator, the output of which is connected to the input of the indicator block, the first fifth to fifth keys, first, second and third single vibrators, the outputs of the first and second keys connected to the inputs of the mode switch, the outputs of the third, fourth and fifth keys connected to the inputs of the first, second and third single vibrators, respectively, the outputs of the first and second single vibrators are connected to the inputs mode switch, and the output of the third one-shot is connected to the first input of the calculator.

 The inventive device due to the introduction of the first to fifth keys and the first, second and third single vibrators allows you to determine the accuracy of the measurement of the critical frequency of the flicker fusion (KCHSM).

 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 is a timing chart explaining the operation of the device.

 The inventive device contains the first to fifth 1-5 keys, the first 6, second 7 and third 8 single vibrators, a mode switch 9, a ramp generator 10, a voltage-frequency converter 11, a light pulse source 12, a calculator 13, and an indicator unit 14.

 The first switch 1 is designed to increase the frequency of light flicker at the output of the Converter 11 voltage - frequency with a speed equal to 20 Hz / s

 The second switch 2 is designed to reduce the frequency of light flickering at the output of the Converter 11 voltage - frequency with a speed equal to 2 Hz / s

 The third key 3 is designed to increase the frequency of light flickering at the output of the Converter 11 voltage - frequency by an amount equal to 0.1 Hz.

 The fourth key 4 is designed to reduce the frequency of light flickering at the output of the Converter 11 voltage - frequency by an amount equal to 0.1 Hz.

 The fifth key 5 is intended for fixing the measurement results.

 The first to fifth keys 1-5 are manual switches to two positions for closing and opening the electrical control circuits and are made in the form of control buttons.

 As the generator 10 of a linearly varying voltage, a standard integrator is used on the operational amplifier with input resistors switched by a switch 9 to obtain a different rate of increase in voltage at the output of the generator 10, and, by changing the polarity of the input voltage, change the direction of integration (rise or fall of the output voltage) .

 The calculator 13 determines the difference between the two frequencies of light flicker recorded by the subject.

 The device operates as follows.

When the power is turned on, the generator 10 provides a constant voltage to the converter 11 corresponding to the initial F _n frequency of light flicker equal to 20 Hz. A converter 11 converts this voltage to a frequency that controls the source 12 (time interval 0-T ₁ ).

The test subject closes the key 1 (time T ₁ ), and through the switch 9 sets the generator 10 in the mode of generating a ramp voltage corresponding to the rate of change of the frequency of light flicker of 20 Hz / s. The Converter 11 converts this voltage into a proportionally changing frequency, which source 12 is converted into light pulses presented to the subject (time interval T ₁ -T ₂ ).

On the time interval T ₁ -T _{2, the} test subject, holding the key 1 in the closed state, determines the estimated maximum permissible supra-threshold value of the CFCM according to the criterion "the source does not flicker" and opens the key 1 (time point T ₃ , frequency f ₁ ). In this case, the generator 10 stores a constant voltage at the output corresponding to the frequency f ₁ .

Then the subject closes the key 2 (time T ₃ ) and through the switch 9 sets the generator 10 in the mode of generating a linearly incident voltage corresponding to the rate of change of the frequency of light flicker of 2 Hz / s. Converter 11 converts this voltage into a proportionally changing frequency, which source 12 is converted into light pulses presented to the subject (time interval T ₃ -T ₄ ).

On the time interval T ₃ -T _{4, the} test subject, holding the key 2 in the closed state, determines the estimated minimum permissible sub-threshold value of the CFCM according to the criterion "the source clearly flickers" and opens the key 2 (time point T ₄ , frequency F ₂ ). In this case, the generator 10 stores a constant voltage at the output corresponding to the frequency F ₂ .

Next, the test person by sequentially closing the key 3 determines the minimum permissible above-threshold value of the CFCM according to the criterion "the source does not seem to flicker" (time interval T ₅ -T ₆ ). With each closure of the key 3, the first 6 single-shot generates a pulse, the duration of which corresponds to an increase in the frequency at the output of the converter 11 by 0.1 Hz. Upon reaching the minimum permissible above-threshold value of the CSFM, the subject fixes it by closing the key 5 (time point T ₆ , frequency F ₃ ). In this case, the pulse from the output of the third one-shot 8 is fed to the calculator 13, in which the value of the frequency F _{3 is} written, and the generator 10 stores a constant voltage corresponding to the frequency F ₃ at the output.

Then, the test person by sequentially closing key 4 determines the maximum permissible sub-threshold value of the CFCM according to the criterion "the source seems to flash" (time interval T ₆ -T ₇ ). With each closure of the key 4, the second 7 single-shot generates a pulse, the duration of which corresponds to a decrease in the frequency at the output of the converter 11 by 0.1 Hz. Upon reaching the maximum permissible sub-threshold value of the CSFM, the subject fixes it by closing the key 5 (time point T ₇ , frequency F ₄ ). In this case, the pulse from the output of the third 8 single vibrator is supplied to the calculator 13, in which the value of the frequency F _{4 is} written, and the generator 10 stores a constant voltage at the output corresponding to the frequency F ₄ . The calculator 13 determines the frequency difference F ₃ and F ₄ and displays the result on the block 14 indicators, after which it generates a pulse that sets the device to its original state (circuits not shown).

The determined accuracy of the CFCF measurement is taken to be equal to the difference in frequencies F ₃ and F ₄ recorded by the subject.

 Thus, the inventive device allows you to determine the accuracy of the measurement of CSFM and has the properties that determine the receipt of a positive effect.

Claims (1)

A device for determining the accuracy of measuring the critical fusion flicker frequency, comprising a mode switch, a ramp generator, a voltage-frequency converter, a light pulse source, a calculator and an indication unit, wherein the output of the mode switch is connected to the generator input, the output of which is through a voltage-frequency converter connected to the input of the light pulse source and the second input of the calculator, the output of which is connected to the input of the indicator block, characterized in that in he introduced the first - fifth keys, the first, second and third one-shot, and the outputs of the first and second keys are connected to the inputs of the mode switch, the outputs of the third, fourth and fifth keys are connected to the inputs of the first, second and third one-shots, respectively, the outputs of the first and second one-shots are connected with the inputs of the mode switch, and the output of the third one-shot is connected to the first input of the calculator.

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