RU2451482C1 - Measurement unit for visual resolution as shown by flicker frequency - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to medical equipment and aims at measuring a visual resolution shown by flicker frequency. A unit comprises a toggle switch, two keys, a mode switch, two falling pulse shapers, a ramp voltage generator, an OR element, a second pulse generator, an analogue memory unit, two voltage-to-frequency converters, two gates, a single vibrator, a calculator, a counter, two light pulse source unit and two display units.

EFFECT: measurement unit provides higher accuracy of measuring the pass band of the visual resolution as shown by flicker frequency that is ensured by simultaneous presentation of initial and decreased flicker frequency as compared thereto that enables avoiding long-time logical-semantic memory.

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Description

The invention relates to medical equipment and is intended to measure the resolution of vision by the frequency of light flicker.

A device for measuring the resolution of vision by the frequency of light flickering, containing a test button, a linearly varying voltage generator, a voltage-frequency converter, a light pulse source, a calculator and a block of indicators, the generator output is connected to the input of the voltage-frequency converter, the output of which is connected to the inputs of the source of light pulses and the computer, the output of the computer is connected to the input of the indicator block, characterized in that it additionally introduced Vatel falling edge pulse signal, whose input is connected to the output of the test button, and an output - to the input of the calculator, the output of the test button is also connected with the input of the generator [1].

Closest to the technical nature of the present invention is a device for measuring the resolution of vision by the frequency of light flicker, containing a linearly varying voltage generator, voltage-frequency converter, light pulse source, calculator, indicator block and pulse shaper for signal decay, and the output of the generator is connected with the input of the voltage-frequency converter, the output of which is connected to the input of the light pulse source and the first input of the calculator, the output to the numerator is connected to the input of the indicator block, characterized in that it additionally includes a mode switch, a second pulse shaper for the signal decline, an OR element, a valve, a second pulse generator, a single vibrator, a counter, a second block of indicators, the first and second keys, and the switch output modes connected to the input of the linearly varying voltage generator, the output of the first pulse shaper on the signal drop is connected to the first input of the OR element, the second input of which is connected to the output of the second of the pulse generator according to the decay of the signal, and the output with the second input of the calculator, the output of the voltage-frequency converter is also connected to the first input of the valve, the second input of which is connected to the output of the second pulse generator, and the output to the counting input of the counter, the output of which is connected to the input of the second block indicators, the output of the second pulse generator is also connected to the input of a single vibrator, the output of which is connected to the input of zeroing the counter, the outputs of the first and second keys are connected respectively to the first and second inputs yuchatelya modes and inputs of said first and second pulse shapers of the decay signal [2].

A disadvantage of the known devices is the low accuracy of measuring the resolution of vision by the frequency of light flickering, due to the need to use memory functions, in particular, access to long-term logical-semantic memory.

The technical result of the proposed device for measuring the resolution of vision by the frequency of light flicker is to increase the accuracy of the measurement.

The technical result is achieved in that the device comprises a linearly varying voltage generator, a voltage-frequency converter, a light pulse source, a calculator, first-second blocks of indicators, first-second pulse shapers for signal decay, a mode switch, an OR element, a valve, a second pulse generator , one-shot, counter, first and second keys, and the output of the generator is connected to the input of the voltage-frequency converter, the output of which is connected to the input of the light pulse source and by the first input of the calculator, the output of the calculator is connected to the input of the first block of indicators, the output of the mode switch is connected to the input of the ramp generator, the output of the first pulse shaper is connected to the first input of the OR element, the second input of which is connected to the output of the second pulse shaper by the signal drop and the output is with the second input of the calculator, the output of the voltage-frequency converter is also connected to the first input of the valve, the second input of which is connected to the output of the second generator pulses, and the output is with the counter input of the counter, the output of which is connected to the input of the second block of indicators, the output of the second pulse generator is also connected to the input of a single vibrator, the output of which is connected to the counter zeroing input, the outputs of the first and second keys are connected respectively to the first and second inputs the mode switch and with the inputs of the first and second pulse shapers for the decay of the signal, and the new one is that the tumbler switch, the second valve, the analog storage device, the second a voltage-frequency converter and a second source of light pulses, wherein the normally-closed output of the toggle switch is connected to the first input of the second valve, the second input of which is connected to the output of the OR element, and the output to the first input of the analog storage device, the second input of which is connected linearly to the generator output varying voltage, and the output is with the input of the second voltage-frequency converter, the output of which is connected to the input of the second light pulse source.

The inventive device due to the introduction of a toggle switch, a second gate, an analog storage device, a second voltage-frequency converter and a second source of light pulses allows to increase the accuracy of measuring the resolution of vision by the frequency of light flickers due to the elimination of the need for access to long-term logical-semantic memory during measurements.

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 timing diagram of its operation.

The inventive device comprises a toggle switch 1, first to second 2-3 keys, a switch 4 modes, first to second 5-6 pulse shapers on the decline of the signal, the generator 7 of the ramp voltage, the element 8 OR, the generator 9 second pulses, the device 10 analogue storage, first-second 11-12 voltage-frequency converters, first-second 13-14 valves, one-shot 15, calculator 16, counter 17, first-second 18-19 light pulse sources and first-second 20-21 indicator blocks.

The toggle switch 1 is designed to set the installation modes of the initial frequency of light flicker and measure the resolution of vision by the frequency of light flicker.

The analogue storage device 11 is designed to store voltage and can be performed, for example, according to the scheme [3, Fig. 8.17, p.240].

The remaining functional nodes of the structural diagram of the claimed device are well known or correspond to similar functional nodes of the structural diagram of the prototype.

The device operates as follows.

In the initial state, the toggle switch 1 is in the position corresponding to the setting mode of the initial frequency of light flicker, as shown in figure 1. When the power is turned on, the counter 17 is reset (the circuits are not shown), the valve 14 opens, the generator 7 outputs a constant voltage to the converter 11 corresponding to a light flicker frequency of 25 Hz, i.e., the average frequency of the received visible range of light flickers from 0 to 50 Hz. A converter 11 converts this voltage to a frequency that controls the source 18. At the same time, a constant voltage from the generator 7 is supplied to the analog storage device 10. The generator 9 generates 1-second pulses at the output, along the leading edge of each signal of the logical unit from the output of the generator 9, the one-shot 15 generates a short pulse, resetting the counter 17. When the signal of the logical unit is at the output of the generator 9, the valve 13 opens, the frequency from the output of the converter 11 through the open the valve 13 enters the counting input of the counter 17, the counting result is displayed on the second 21 block of indicators.

The test subject sets a given initial F _H light flicker frequency. To set the initial F _H light flicker frequency greater than 25 Hz, the test person closes the first 2 key, the signal from the output of which through switch 4 sets the generator 7 to the ramp voltage generation mode at a given speed. To set the initial F _H light flicker frequency, less than 25 Hz, the test person closes the second 3 key, the signal from the output of which through the switch 4 sets the generator 7 in the mode of generating a linearly incident voltage with a given speed. The operation of the Converter 11, the control of the source 18 and the output of the result of the count of the frequency of light flickering to the second 21 block of indicators is carried out similarly as described above.

When you open the first 2 or second 3 keys (figure 2, time T ₀ , frequency F _H ), the generator 7 stores a constant voltage at the output corresponding to the set initial F _H light flicker frequency at the output of the converter 11. At the same time, when opening the first 2 or second 3 keys, respectively, the first 5 or second 6 formers generate a short pulse, which through the element 8 OR is supplied to the calculator 16 and through the open valve 14 to the device 10 analog storage. The value of the set initial F _H light flicker frequency is written to the calculator 16, and a constant voltage corresponding to the set initial F _H light flicker frequency, which from the output of the analog storage device 10 is supplied to the converter 12, is transferred to the device 12 to the converter 12. The converter 12 converts this voltage to the frequency , which controls the source 19 (figure 2, the time interval T ₀ -T ₁ ). The operation of the Converter 11, the control of the source 18 and the output of the result of the count of the frequency of light flickering to the second 21 block of indicators is carried out similarly as described above. Thus, the first 18 and second 19 sources of light pulses receives the set initial F _H light flicker frequency.

To measure the resolution of vision by the frequency of light flickering, the test subject switches the toggle switch 1 to the position corresponding to the measurement mode, valve 14 closes. The test person closes the second 3 key (figure 2, time T ₁ ), the output signal of which through the switch 4 sets the generator 7 in the mode of generating a linearly incident voltage. The operation of converters 11-12, control of sources 18-19 and the output of the result of counting the frequency of light flicker to the second 21 block of indicators is carried out similarly as described above.

On the time interval T ₁ -T ₂ (figure 2), the test subject, holding the key 3 in the closed state, determines when the frequency of light flicker of the first source 18 differs from the frequency of light flicker of the second source 19, and opens the key 3 (figure 2, moment time T ₂ , frequency F _K ). The generator 7 stores at the output a constant voltage corresponding to the final frequency F _K. The operation of converters 11-12, control of sources 18-19 and the output of the result of counting the frequency of light flicker to the second 21 block of indicators is carried out similarly as described above. At the same time, when the second 3 key is opened, the second 6 shaper generates a short pulse, which is transmitted through the OR element 8 to the calculator 16, in which the value of the final frequency F _{K of} light flickers is recorded. The calculator 16 determines the difference between the initial F _H and final F _K frequencies, equal to the value of the resolution of vision by the frequency of light flickers, and displays the result on the first 20 block of indicators, after which it generates a pulse that sets the device to its original state (circuits not shown).

Thus, the claimed device allows to increase the accuracy of measuring the resolution of vision by the frequency of light flicker due to the simultaneous presentation of the initial and reduced, compared with it, the frequency of light flicker, which allows you to not access long-term logical-semantic memory.

Information sources

1. Patent 2204933 of the Russian Federation, A61B 3/00. A device for measuring the resolution of vision by the frequency of light flickers / V.V. Rozhentsov, T.A. Lezhnina. - Publ. 05/27/2003. Bull. No. 15.

2. Patent 2365334 of the Russian Federation, A61B 5/16. A device for measuring the resolution of vision by the frequency of light flickers / Rozhentsov V.V., Lezhnina T.A. - Publ. 08/27/2009. Bull. Number 24.

3. Lantsov A.L., Zvorykin L.N., Osipov I.F. Digital devices on complementary MIS integrated circuits. - M.: Radio and Communications, 1983 .-- 272 p.

Claims (1)

A device for measuring the resolution of vision by the frequency of light flickering, containing a linearly varying voltage generator, a voltage-frequency converter, a light pulse source, a computer, the first, second indicator blocks, the first, second pulse shapers for the signal decay, a mode switch, an OR element, a valve , second pulse generator, one-shot, counter, first and second keys, and the output of the generator is connected to the input of the voltage-frequency converter, the output of which is connected to the house of the light pulse source and the first input of the calculator, the output of the calculator is connected to the input of the first block of indicators, the output of the mode switch is connected to the input of the ramp generator, the output of the first pulse shaper is connected to the first input of the OR element, the second input of which is connected to the output of the second of the pulse shaper according to the decline of the signal, and the output with the second input of the calculator, the output of the voltage-frequency converter is also connected to the first input of the valve, the second input of which connected to the output of the second pulse generator, and the output to the counting input of the counter, the output of which is connected to the input of the second block of indicators, the output of the second pulse generator is also connected to the input of the one-shot, the output of which is connected to the input of zeroing the counter, the outputs of the first and second keys are connected respectively to the first and second inputs of the mode switch and with the inputs of the first and second pulse shapers on the decline of the signal, characterized in that it additionally introduced a toggle switch, a second valve, devices o analog storage, the second voltage converter is the frequency and the second source of light pulses, and the normally-closed output of the toggle switch is connected to the first input of the second valve, the second input of which is connected to the output of the OR element, and the output to the first input of the analog storage device, the second input of which connected to the output of the ramp generator, and the output to the input of the second voltage-frequency converter, the output of which is connected to the input of the second light pulse source.

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