RU2204931C2 - Device for measuring critical light flicker fusion frequency - Google Patents

Abstract

FIELD: medical engineering. SUBSTANCE: device has three buttons, shifting register, three triggers two waiting multivibrators, mode switch, linearly changeable voltage oscillator, voltage-to-frequency transducer, luminous pulses source, two analog memory units, summing amplifier having divider on output, analog comparator and key units, indicator unit, two monovibrator units, counter and indication unit. EFFECT: enabled real value determination. 2 dwg

Description

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

 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 hera, converter output voltage - frequency is connected to the input of the recorder, the comparator input is connected to the output of the digital-analog converter, and the output is 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. 1292734 USSR, 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 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 1373399 USSR, class A 61 V 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.

 The closest in technical essence to the present invention is a device for measuring the critical flicker fusion frequency, 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 to the second input of the first trigger, the first input of the second trigger and the input of the first standby multivibrator, the third output - to the second input of the third trigger and the input of the second standby 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 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. 1623605 USSR, cl. A 61 V 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 the device showed that this is due to various dynamic errors during the determination of the critical frequency of light flicker caused by different reaction times of the subject with increasing and decreasing frequency of light flicker.

 At the same time, it is known that the human eye is more sensitive to the perception of discretely changing frequencies (A.S. 1346136 USSR, class A 61 B 5/16).

 In the present invention, in a device for measuring a critical flicker fusion frequency, comprising a shift register button, first, second and third triggers, first and second standby multivibrators, a mode switch connected in series, a ramp generator, a voltage-frequency converter and a light pulse source, an indicator and an indication unit, wherein the button output is connected to the input of the shift register, the first output of which is connected to the first input of the first trigger, the second output to the first input of the first trigger and the input of the first standby multivibrator, the third output is with the input of the second standby multivibrator, the output of the first standby multivibrator is connected to the second input of the second 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 input of the converter, the output of the converter is connected with the input of the light pulse source, two buttons, two one-shots, two analogue storage devices, an amplifier summing with a divider into the course, an analog comparator, an analog key and a counter, and the button outputs are connected to the inputs of one-shots, the outputs of which are connected via a mode switch to the generator input, the third output of the shift register is also connected to the first input of the second trigger, the output of the first multivibrator to the control input of the first analog device memory, the output of the third trigger is with the control input of the analog key, the generator output is with the inputs of the analog storage devices and the analog key, the output of the converter - with the counter input, the output of the second standby multivibrator is connected to the first input of the third trigger and the control input of the second analog storage device, the outputs of the analog storage devices are connected to the inputs of the summing amplifier, the output of which is connected to the first input of the analog comparator, the second input of which is connected to the output of the analog key , output - with the indicator input and the second input of the third trigger, the counter output is connected to the input of the display unit.

The inventive device due to the introduction of two buttons, two single vibrators, two analog storage devices, an amplifier summing with a divider at the output, an analog comparator, an analog key and a counter allows you to:
- due to a discrete change in the frequency of light flicker at the last measurement stage, determine the true value of the critical frequency of light flicker;
- by reducing the random component of the measurement error, increase the accuracy of measuring the critical frequency of light flicker;
- 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 fatigue of visual analyzers and increase the accuracy of measurement results;
- by eliminating the calculator of the average value, which is a complex node, to simplify the device, thereby increasing its reliability.

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

 Figure 1 presents a structural diagram of the inventive device, figure 2 is a timing diagram of its operation.

 The inventive device contains buttons 1, 2 and 3, the shift register 4, the first 5, the second 6 and the third 7 triggers, the first 8 and second 9 waiting multivibrators, 10 mode switch, ramp generator 11, voltage-frequency converter 12, a source of 13 light pulses, the first 14 and second 15 of the device are analog storage devices, an amplifier 16 summing with an output divider, an analog comparator 17, an analog key 18, an indicator 19, a first 20 and a second 21 single vibrators, a counter 22 and an indication unit 23.

 Triggers 5 ... 7 are standard RS triggers. Only one trigger can be on at a time.

 As the ramp voltage generator 11, a standard integrator is used on an operational amplifier with input resistors switched by a switch 10 to obtain a different rate of voltage rise at the output of the generator 11, and by changing the polarity of the input voltage, change the direction of integration (rise or fall of the output voltage).

 Devices 14 and 15 analog storage can be performed according to the scheme shown in Fig. 8.17, p. 240 (Lantsov A.L. et al. Digital Devices on Complementary TIR Integrated Circuits. - M.: Radio and Communications, 1983. - 272 p.), The remaining nodes are well known.

 The device operates as follows. When power on, triggers 5.. . 7 and indicator 19 are turned off, code 1000 is written in register 4 (circuits not shown), generator 11 outputs a constant voltage to converter 12 corresponding to the initial frequency F1 of light flickers. Converter 12 converts this voltage to a frequency that controls the source 13 (time interval 0 ... T1).

 The test subject presses button 1 (time point T1). The pulse from button 1 shifts the state of register 4 by one bit to the right, the signal from the first output of register 4 turns on trigger 5, which, through switch 10, sets generator 11 to the mode of generation of a slowly varying ramp voltage with a slope S1. Converter 12 converts this voltage into a proportionally changing frequency, which source 13 is converted into light pulses presented to the subject (time interval T1 ... T2).

 On the time interval T1 ... T2, the test subject determines the moment of fusion of light flickers at which button 1 is pressed (time moment T2, frequency F2). In this case, the state of register 4 is again shifted by one bit to the right. The signal from the second output of the register 4 turns off the trigger 5 and turns on the multivibrator 8. The generator 11 stores a constant voltage at the output corresponding to the frequency F2. From the output of the multivibrator 8, the pulse is supplied to the analog storage device 14, which stores the value of the constant voltage coming from the output of the generator 11, and feeds it to the first input of the amplifier 16. The time interval T2 ... T3 is determined by the duration of the pulse generated by the multivibrator 8. At the time time T3 multivibrator 8 is turned off, the analog storage device 14 goes into storage mode, the trailing edge of the pulse multivibrator 8 turns on trigger 6, the latter sets the generator through switch 10 p 11 to the mode of generation of a slowly varying linearly incident voltage with a slope S1, which is converted through a circuit by a generator 11 - a converter 12 - a source 13 into light pulses (time interval T3 ... T4).

 When determining the merger of light flickers (time point T4, frequency F3), the test subject presses button 1, the state of register 4 is again shifted by one digit to the right, the signal from its third output turns off trigger 6 and turns on multivibrator 9, generator 11 stores a constant voltage corresponding to the output frequency F3. From the output of the multivibrator 9, the pulse is supplied to an analog storage device 15, which stores the value of the constant voltage coming from the output of the generator 11, and feeds it to the second input of the amplifier 16. The constant voltage from the output of the amplifier 16 is equal to the arithmetic average of the values of the constant voltage corresponding to the frequencies F2 and F3, is fed to the first input of the comparator 17. The time interval T4. ..T5 is determined by the duration of the pulse generated by the multivibrator 9. At time T5, the multivibrator 9 is turned off, the analog storage device 15 goes into storage mode, the trailing edge of the pulse multivibrator 9 turns on the trigger 7, the latter through the switch 10 sets the generator 11 to the generation mode of rapidly changing linearly rising voltage with steepness S2. At the same time, the signal from the output of the trigger 7 opens the key 18, through which a linearly increasing voltage from the output of the generator 11 is supplied to the second input of the comparator 17. When the voltage at the inputs is equal, the comparator 17 generates a signal (time T6), which turns off the trigger 7 and turns on the indicator 19. In this case, the generator 11 stores at the output a constant voltage corresponding to the arithmetic average of the frequencies F2 and F3, which is converted through the circuit of the converter 12 - source 13 into light pulses presented to the subject.

 If the test subject does not see light flickers after time point T6, he presses button 2, the pulse from which starts the one-shot 20. The latter, through switch 10, sets the generator 11 to the mode of linearly decreasing voltage, which is converted through the circuit by the generator 11 - converter 12 - source 13 into light impulses. The duration of the pulse generated by the single-shot 20 corresponds to a decrease in the frequency of light flicker by 0.1 Hz. If the subject does not see light flickers again, he again presses button 2, etc., until they are detected. Then the test subject presses button 3, the pulse from which the one-shot starts 21. The latter, through the switch 10, sets the generator 11 to the mode of linearly increasing voltage generation, which is converted through the circuit by the generator 11 - converter 12 - source 13 into light pulses. The duration of the pulse generated by the single-shot 21 corresponds to an increase in the frequency of light flicker by 0.1 Hz. If the subject determines the fusion of light flicker, then their frequency is taken as the actual value of the critical frequency of light flicker. Otherwise, the subject presses button 3 again until the moment of merging of the light flickers is determined.

 If the subject after the time point T6 sees light flickers, he presses the necessary number of times button 3 until the moment of merging light flickers is determined.

 The frequency from the output of the Converter 12 is supplied to the counter 22, the counting result is displayed on the display unit 23.

 Upon completion of measurements and reading of the critical frequency of light flicker, the device is set to its original state (circuits not shown).

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

Claims (1)

 A device for measuring the critical fusion frequency of light flickers, containing a button, a shift register, first, second and third triggers, first and second standby multivibrators, a series-connected mode switch, a linearly varying voltage generator, a voltage-to-frequency frequency and light pulse source, indicator and block indications, moreover, the output of the button is connected to the input of the shift register, the first output of which is connected to the first input of the first trigger, the second output to the second input of the first trigger and the input of the first standby multivibrator, the third output is with the input of the second standby multivibrator, the output of the first standby multivibrator is connected to the second input of the second 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 input of the converter, the output of the converter is connected to the input of the source light pulses, characterized in that it additionally includes two buttons, two one-shot, two analog storage devices, the amplifier summing with divide the output terminal, the analog comparator, the analog key and the counter, and the button outputs are connected to the inputs of one-shots, the outputs of which are connected through the mode switch to the generator input, the third shift register output is also connected to the first input of the second trigger, the output of the first multivibrator to the control input of the first analog storage devices, the output of the third trigger is with the control input of the analog key, the output of the generator is with the inputs of the analog storage devices and the analog key, the output of the conversion the caller - with the counter input, the output of the second standby multivibrator is connected to the first input of the third trigger and the control input of the second analog storage device, the outputs of the analog storage devices are connected to the inputs of the summing amplifier, the output of which is connected to the first input of the analog comparator, the second input of which is connected to the key output analog, output - with the indicator input and the second input of the third trigger, the counter output is connected to the input of the display unit.

Images