SU982647A1 - Device for measuring crytical frequency of flicker confluence - Google Patents

Description

(54) DEVICE FOR MEASURING THE CRITICAL FREQUENCY OF MILL MIXTURE

one

The invention relates to medical technology and can be used in devices for diagnostic studies.

A device for measuring the critical frequency of flicker fusion is known, which contains a voltage-to-hour converter: current, a source of light pulses, a recorder and a button of a test subject, as well as a generator of linearly varying voltage 1.

The disadvantage of this device is the difficulty of servicing the device when studying the dynamics of measuring the critical frequency of flicker fusion, since it does not contain means that provide an automatic cycle of operation.

The closest in technical essence to the present invention is a device for measuring the critical flicker fusion frequency, comprising a voltage-frequency converter, a source of light pulses, a recorder, a button, a test subject, a comparator, pause and reset multivibrators, a trigger, and a generator linearly changing voltage, the output of the generator of linearly varying voltage is connected to the input of the converter voltage - frequency, its output connected to the recorder and the source of light and pulses, in addition, a test button and a comparator output connected to a first input of a trigger generator output linearly varying voltage is coupled to the input of the comparator, a trigger output connected to a first input of the oscillator linearly varying voltage and via a series connected awaiting

Q multivibrators of pause and reset with the second inputs of the trigger and the generator of linearly varying voltage 2.

A disadvantage of the known device is the time consuming in the study of the dynamics of changes in the critical

15 frequency of flickering, which leads to additional fatigue of visual analyzers, and, consequently, to a decrease in the accuracy of research results.

The aim of the invention is to increase

20 measurement accuracy by reducing the study time.

This goal is achieved by the fact that in a device for measuring the critical flicker frequency, containing a source of light pulses, a transducer

voltage - the frequency connected to the recorder, the test button, the comparator connected in series the waiting multivibrator pause and the waiting multivibrator reset, the output of which is connected to the first input of the trigger, the output of which is connected to the first input of the waiting multivibrator pause, entered the OR element, the first input of which is connected with the test button, the second input - with the output of the comparator and the second input of the waiting multivibrator pause, and the output - with the second input of the trigger, series-connected pulse generator, ne The left prohibition element, the reversible pulse counter and the D / A converter, the output of which is connected to the inputs of the comparator and the voltage converter, is the frequency, the I element, the first input of which is connected to the output of the pulse generator, and the output is connected to the second input of the reversing pulse counter, and the second a prohibition element whose output is connected to a source of light pulses, the first input to the input of the recorder, and the second input to the trigger output and the second input of the first prohibition element.

FIG. 1 shows the structural electrical circuit of the device; in fig. 2 - time diagram of the change - the frequency of flashes of the light flux.

The device contains a source of 1 light pulses, a voltage-frequency converter 2, a recorder 3, a test button 4, a comparator 5, pauses of a multivibrator 6 pause in series and a reset multivibrator 7, the output of which is connected to the first trigger input 8, the output of which is connected to the first input multivibrator 6, element OR 9, the first input of which is connected to the button 4, the second input - with the output of the comparator 5 and the second input of the multivibrator 6, and the output - with the second input of the trigger 8, connected in series p 10 pulses, the first prohibition element 11, a reversible counter of pulses 12, and a digital-to-analog converter 13, the output of which is connected to the inputs of the comparator 5 and the converter 2, element 14, the first input of which is connected to the output of the generator 10, and the output to the second the input of the counter 12, and the second element 15 of the ban, the output of which is connected to the source 1, the first input to the input of the recorder 3, and the second input to the output of the trigger 8 and the second input of the element 11 of the ban.

The device works as follows.

The subject is presented with a source of 1 light pulses with a discretely varying flicker frequency value, with the flicker frequency at the minimum initially lower than the critical frequency.

The magnitude of the minimum noticeable change in the frequency of melking in most practical cases can be chosen equal to 1 Hz, i.e. 1 Hz. At the same time, the critical frequency of flicker

(Ccsm) for different people and conditions lies in the range of 20–50 Hz, i.e. 20 Hz P ц p (.y, 50 Hz. In order to determine the initial value of the D-specific person and specific conditions, it is necessary for him to be presented sequentially the whole range of flicker frequencies, starting from 20 Hz, up to the critical frequency of the RCFS. For example, if Rcchs (.42 Hz, then in this case, 23 values of the flicker frequencies must be presented that differ from each other by 1 Hz.

However, the critical frequency of flicker fusion during testing varies due to fatigue or due to measurement errors of a maximum of 3-5 Hz. With repeated presentations of the number of frequencies of flashes, the initial frequency of this range is chosen equal to Hz. For example, if at the first presentation of a number of frequencies of flashes it is established that RFID of 42 Hz, then upon repeated presentation of the initial frequency of flashes is chosen equal to 37 Hz and further,

5 on each test stage, it is successively increased by 1 Hz to obtain the value

It is recommended to select a frequency that differs from an RCCHS of 5 Hz as the initial flicker frequency for retesting. With very small values of this value, for example, 1-2 Hz, the time for testing is significantly reduced, but at the same time the likelihood of a missing RCFCM increases with repeated presentations.

5 With large values of this magnitude, the probability of a skip decreases, but the time per test increases.

In the initial position, trigger 8 is in the zero state. In this case, at the output of the trigger 8, the signal is absent and, consequently, the elements And and 15 of the prohibition are open, and the element And 14 is closed.

The pulses from the generator 10 through the element li prohibit arrive at the summing input of the counter 12. The frequency of the pulses

5 is chosen equal to 0.1-0.5 Hz on the basis of the conditions that the subject during the time between two pulses must estimate the frequency of light flashes and make a decision.

From the output of counter 12, a signal in a parallel code is applied to the input of a digital-to-analog converter 13, at the output of which a stepwise increasing voltage appears. This voltage is fed to the input of the converter 2, the voltage to the frequency and to the input of the comparator 3.

Claims (2)

In this case, pulses are removed from the output of converter 2, the law of which the following frequency changes is the same as for the voltage at the output of the digital-analog converter 13 (Fig. 2). These pulses are fed to the input source of the light pulses I through the element 15 of the ban. When the critical frequency of light flashes is reached, the subject presses button 4. Suppose that this happened at time tj (Fig. 2). In the reverse counter 12, the number of counting pulses is fixed, which is proportional to the critical frequency of flicker. Pressing the button 4 through the element OR 9 transfers the trigger 8 to the single state. At the same time, the output of the trigger 8 to the inhibit input of the inhibit element J1 receives a signal, as a result of which the counting pulses from the generator 10 output to the summing input of the reversing counter 12 are stopped. At the same time, the output signal of the trigger 8 goes to the control input of the And 14 element. element And 14 counting pulses begin to flow to the subtracting input of the reversible counter 12. In addition, the signal from the output of the trigger 8 starts the waiting multivibrator 6 pause and, entering the inhibiting input of the prohibition element 15, stops the operation of the source 1 light pulses. The recorder 5, connected to the converter 2 voltage - frequency shows the value of the critical frequency of flicker determined by the subject. During the pause time determined by the parameters of the multivibrator 6, the content of the reversible counter 12 decreases, for example, by 3-5 pulses. At time tj, the standby multivibrator 6 pause returns to its original state and starts the standby multivibrator 7 reset, which brings the trigger 8 to the zero state. The installation is reset to its original position with the difference that in the reversible counter 12 a certain number of pulses are already stored, which determines the new initial frequency of flickering of the source 1 light pulses, which is close to the critical frequency of flicker. In the future, the operation of the device is carried out as described above. Suppose that in the interval t4-ts the subject does not press button 4. Then the comparator 3 switches the trigger 8 to the unit state through the element OR 9 and simultaneously affects the second control input of the waiting multivibrator 6, changes the parameters of its setting elements to the side increasing the pause to a value sufficient for the reversible counter 12 to be pushed into the zero state. The proposed device makes it possible to shorten the time needed for investigating the dynamics of changes in the critical flicker frequency. For example, if in a known device at each stage of the study it is necessary to present the subject with 30 discrete values of the flicker frequency, then in the proposed device, beginning with the second stage of the study, one can produce five or less discrete values of the change in the frequency of the flickers. This allows for the second and subsequent stages to shorten the study time by a factor of more than once. Reducing the study time contributes to increased accuracy by eliminating the error caused by additional fatigue of visual analyzers, Formula of the Invention A device for measuring the critical frequency of flicker, containing a source of light pulses, a voltage-frequency converter connected to a recorder, a button of the subject, a comparator connected in series waiting multivibrator pause and waiting multivibrator reset, the output of which is connected to the first trigger input, output cat It is connected to the first input of the standby multivibrator pause, characterized in that, in order to increase the measurement accuracy by reducing the study time, an OR element is introduced in it, the first input of which is connected to the button of the test subject, the second input - with the output of the comparator and the second input of the waiting multivibrator pause and the output is with a second trigger input, a pulse generator connected in series, the first prohibition element, a reversing pulse counter and a digital-analogue converter, the output of which is connected to the inputs of the paratrooper and the converter are the frequency, the element I, the first input of which is connected to the output of the pulse generator, and the output to the second input of the reversible pulse counter, and the second prohibition element whose output is connected to the source of light pulses, the first input to the input registrar, and the second input to the trigger output and the second input of the first element of the ban. Sources of information taken into account in the examination 1. USSR author's certificate number 534229, cl. A 61 B 3/00, 1975. 2. USSR author's certificate number 663371, cl. A 61 B 3/00, 1978. 2