RU2141253C1 - Device for measuring of critical frequency of light flickering - Google Patents

Abstract

FIELD: medical engineering. SUBSTANCE: device is used for determination of degree of man's fatigue and for diagnostic examinations. Device has two keys, toggle switch, univibrator, rectifier, counter, indication unit, and series-connected mode of operation switch, generator, voltage-to-frequency converter, and source of light pulses. Person under test presses buttons in succession and determines actual value of light flickering critical frequency by means of device. Device allows measurement of true vale of light flickering critical frequency and by means of device. Device allows measurement of true value of light flickering critical frequency and reduction of measurement time. EFFECT: enhanced reliability. 2 dwg

Description

 The invention relates to medical equipment, namely to devices for determining the degree of human fatigue and diagnostic studies.

 A device is known for measuring the critical fusion flicker frequency, comprising a pulse generator, a first inhibit element, a reverse counter, a digital-analog converter, a voltage-frequency converter, a second inhibit element, a light pulse source, a test button connected in series, a trigger that is waiting for a pause multivibrator, 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 Era, 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-to-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 ban are connected to the output of the trigger (A. S. USSR N 1292734, class A 61 B 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 unified with 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 (A.S. USSR N 1373399, class A 61 B 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 flickering, the critical frequency of light flickering 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 of the high-frequency or low-frequency part of the zone of possible values determined at the first step, etc. The number of steps is determined by the required measurement accuracy.

 A disadvantage of the known devices is the large number of steps for determining the critical frequency of light flickers, which takes considerable time, leads to additional fatigue of the visual analyzers, and therefore, to a decrease in the accuracy of measurement results.

 Closest to the technical nature of the present invention is a device for measuring the critical frequency of light flickering, containing the test key, shift register, five triggers, three waiting multivibrators, a mode switch, a ramp generator, a voltage-frequency converter, a light pulse source, an OR element , an average value calculator, an indication unit, a comparator and a failure indicator, the key output being connected to the input of the shift register, the first output of which connected to the first input of the first trigger, the second output - with the second input of the first trigger, the first input of the second trigger and the input of the first multivibrator, the third output - with the second input of the third trigger and the input of the second multivibrator, the fourth output - with the second inputs of the fifth trigger and element OR, the output of the first standby multivibrator is connected to the second input of the second trigger and the first input of the third trigger, the output of the second standby multivibrator is connected to the first inputs of the fourth trigger and the OR element, and the third standby multivibrator, the output of which is connected to the second input of the fourth trigger and the first input of the fifth trigger, the outputs of the triggers are connected via a mode switch to the input of the generator, the output of which is connected to the inputs of the comparator and the converter, the outputs of which are connected respectively to the inputs of the failure indicator and the source of light pulses , the converter output is also connected to the first input of the calculator, the second input of which is connected to the output of the OR element, and the outputs to the inputs of the display unit (a.c. USSR N 1623605, class. A 61 B 3/00, 5/16).

 The disadvantage of this device is that the measured value of the critical frequency of light flicker does not correspond to the true one. Experience with devices manufactured by this A.S. USSR and A.S. USSR N 1741778, class A 61 B 5/16 showed that this is due to different dynamic errors during the determination of the critical frequency of light flicker caused by different reaction times with increasing and decreasing frequency of light flicker.

 In the present invention, a device for measuring the critical frequency of light flickering, comprising an indication unit and a serially connected mode switch, a ramp generator, a voltage-frequency converter, a source of light pulses, additionally introduced keys "Increase frequency" and "Decrease frequency, toggle switch" KCHSM ", one-shot, valve and counter, 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, normal o-closed - to the reset input of the counter, the output monostable coupled to a second input gate having a first input coupled to an output voltage-frequency converter, the output - a counting input of the counter, the counter output is connected to the input of the indication unit.

The inventive device due to the introduction of the keys "Increase frequency" and "Decrease frequency", toggle switch "KCHSM", one-shot, valve and counter allows you to:
- determine the true value of the critical frequency of light flicker;
- reduce the measurement time of the critical frequency of light flicker, which helps to reduce the fatigue of visual analyzers, and therefore, increase the accuracy of the measurement results;
- to improve the psycho-emotional state of the test subject compared to the state when measuring the critical frequency of light flickering by known devices due to the active participation of the test subject in the measurement process, which in turn helps to reduce the fatigue of visual analyzers and increase the accuracy of measurement results;
- to simplify the device, thereby increasing its reliability.

 Thus, the inventive device differs from the known new properties, causing a positive effect.

 In FIG. 1 shows a structural diagram of the inventive device, in FIG. 2 is a timing diagram of its operation.

 The inventive device comprises keys 1 and 2, a toggle switch 3, a ramp generator 4, a mode switch 5, a voltage-frequency converter 6, a single vibrator 7, a valve 8, a counter 9, a light source 10 and an indication unit 11.

 As the generator 4 of a linearly varying voltage, a standard integrator is used on the operational amplifier with input resistors switched by switch 5 to obtain a different rate of increase in voltage at the output of the generator 4, and by changing the polarity of the input voltage, change the direction of integration (increase or decrease in the output voltage).

 The device operates as follows. In the initial state, the toggle switch 3 is in the "Measurement" position, as shown in FIG. 1. When the power is turned on, the generator 4 provides a constant voltage to the converter 6, corresponding to the initial frequency F1 = 20 Hz of light vibrations. Converter 6 converts this voltage to a frequency that controls source 10 (time interval 0 ... T1).

 The test subject presses button 1 (time T1) and, through switch 5, sets the generator 4 to the ramp voltage generation mode. The Converter 6 converts this voltage into a proportionally changing frequency, which is converted by the source 10 into light pulses presented to the subject (time interval T1 ... T2).

 On the time interval T1 ... T2, the test subject, holding button 1, determines the moment of fusion of light flickers, at which he releases button 1 (time point T2, frequency F2). In this case, the generator 4 stores a constant voltage at the output corresponding to the frequency F2.

 The test subject presses button 2 (time instant T3) and, through switch 5, sets the generator 4 to the mode of linearly incident voltage generation. The converter 6 converts this voltage into a proportionally changing frequency, which is converted by the source 10 into light pulses presented to the subject (time interval T3 ... T4).

 On the time interval T3 ... T4, the test subject, holding button 2, determines the moment of merging of light flickers, at which he releases button 2 (time moment T4, frequency F3). In this case, the generator 4 stores a constant voltage at the output corresponding to the frequency F3.

 Next, the subject by alternately pressing buttons 1 and 2 by the method of successive approximation determines the actual value F of the critical frequency of light flicker.

 At the end of the measurements, the test subject switches the toggle switch 3 to the “Read” position, the one-shot 7 generates a pulse of a given duration, for example, a duration of 1c, which opens the valve 8. The frequency from the output of the converter 6 through the valve 8 goes to the counter 9, the counting result is displayed on the display unit 11 .

 Thus, the proposed device allows you to determine the true value of the critical frequency of light flicker; reduce the measurement time of the critical frequency of light flicker, which helps to reduce the fatigue of visual analyzers, and, consequently, increase the accuracy of the measurement results; to improve the psycho-emotional state of the test subject compared to the state when measuring the critical frequency of light flickering by known devices due to the active participation of the test subject in the measurement process, which in turn helps to reduce the fatigue of visual analyzers and increase the accuracy of measurement results; simplify the device, thereby increasing its reliability.

Claims (1)

 A device for measuring the critical frequency of light flickering, comprising a display unit and a serially connected mode switch, a ramp generator, a voltage-frequency converter, a light pulse source, characterized in that two keys, a toggle switch, a one-shot, a valve and a counter are additionally introduced into it, moreover, the outputs of the keys are connected to the inputs of the mode switch, the normally open output of the toggle switch - with the input of a single-shot, normally closed - with the input of resetting the counter, output d monostable coupled to a second input gate having a first input coupled to an output voltage-frequency converter, the output from the counting input of the counter, the counter output is connected to the input of the indication unit.

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