RU2446729C1 - Device for determination of vision resolution by frequency of light flicker - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to medical equipment. Device contains first-third keys, rocker switch, generator of linearly altering voltage, calculator, mode switch, first-second enciphers, first-second shifting registers, first-second units of ten analogue multiplexers, first-second analogue multiplexers, first-third multiplexers, first-second analogue storage devices, first-second units of resistive dividers, first-second units of ten converters voltage-frequency, register, generator of second pulses, counter, first-seventh univibrators, first-fourth OR elements, gate unit, gate, unit of ten keys, unit of light pulses source and first-second units of indicators.

EFFECT: application of device makes it possible to reduce time of determination of vision resolution by frequency of light flicker, due to which it can be applied for mass screening.

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Description

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

A device for measuring the critical frequency of light flicker by A. with. 1007651, characterized in that in order to increase the reliability of determining the degree of human fatigue by measuring the differential threshold of eye sensitivity by the frequency of light flickers, it further comprises an adjustable frequency divider connected to a pulse generator, and a series-connected experimenter button, element I, a second pulse shaper and a second light source, and the second input of the element And is connected to the output of an adjustable frequency divider [1].

In the device in the mode of determining the differential threshold of eye sensitivity by the frequency of light flickers, the test subject compares the flicker frequency of the first light source with the reference flicker frequency of the second light source, changes the frequency of the first source and achieves the equality of the flicker frequencies of both light sources.

The disadvantage of this device is the inaccuracy of determining the differential threshold of eye sensitivity by the frequency of light flicker. The device determines the difference between the flicker frequencies of the adjustable and reference light sources with the subjective equality of their frequencies, that is, the test subjects do not distinguish between flicker frequencies of both sources. However, to determine the differential threshold of eye sensitivity by the frequency of light flickers, it is necessary to determine the minimum difference between the presented frequencies, provided that they are distinguished, that is, the threshold for distinguishing the presented frequencies, which is an indicator of the resolution of vision by the frequency of light flickers.

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].

The disadvantage of this device is the duration of the measurement procedure, which limits its use in mass surveys.

The technical result of the claimed device is to reduce the measurement time.

The technical result is achieved by the fact that the device contains first-second switches, a ramp generator, a calculator, a mode switch, a second pulse generator, a counter, a single vibrator, an OR element, a valve and the first and second blocks of indicators, the outputs of the first and second keys are connected respectively to the first and second inputs of the mode switch, the output of which is connected to the input of the ramp generator, the output of the second pulse generator is connected to the second input of the valve and the input o a vibrator whose output is connected to the counter zeroing input, the counter input of which is connected to the valve output, and the outputs to the inputs of the second indicator block, the output of the OR element is connected to the second input of the computer, the outputs of which are connected to the inputs of the first indicator block, the new one being that a third key, a toggle switch, first-second encoders, first-second shift registers, first-third blocks of ten analog multiplexers, first-fourth analog multiplexers, first-third multi lexors, first-second analogue storage devices, first-second blocks of resistive dividers, first-second blocks of ten voltage-frequency converters, register, second-seventh single-vibrators, second-fourth OR elements, valve block, ten key block, source block light pulses, and the output of the ramp generator is connected to the first inputs of the first block of ten analog multiplexers and the first inputs of the first to second analog multiplexers, the toggle switch outputs are connected the inputs of the first encoder, the outputs of which are connected to the address inputs of the first block of ten analog multiplexers, the second inputs of which are connected to the outputs of the second block of ten analog multiplexers, and the outputs - with the inputs of the first block of ten voltage-frequency converters and the first inputs of the third analog multiplexer, the output of which is connected to the second input of the second analog multiplexer, the output of which is connected to the first input of the second analog storage device, the second input of which connected to the output of the second one-shot, and the output to the input of the first block of resistive dividers, the outputs of which are connected to the inputs of the second block of ten analog multiplexers, the outputs of the first block of ten voltage-frequency converters are connected to the first inputs of the valve, the second inputs of the block of light pulse sources and with the inputs of the first multiplexer, the output of which is connected to the first input of the second multiplexer, the second input of which is connected to the output of the third multiplexer, and the output - with the first input alternator, the output of the third key is connected to the input of the first shift register, the first output of which is connected to the first input of the second OR element, the output of which is connected to the input of the second one-shot, the second output of the first shift register is connected to the first input of the third OR element, the output of which is connected to the input of the third one-shot, the output of which is connected to the second input of the first analogue storage device, the first input of which is connected to the output of the first analog multiplexer, and the output - to the input of the second unit resistive dividers, the outputs of which are connected to the inputs of the third block of ten analog multiplexers, the outputs of which are connected to the inputs of the fourth analog multiplexer and the inputs of the second block of ten voltage-frequency converters, the outputs of which are connected to the first inputs of the light pulse source block and the inputs of the third multiplexer, the output of the second pulse generator is also connected to the address input of the second multiplexer and the inputs of the sixth and seventh single vibrators, the outputs of which are connected respectively, with the first and second inputs of the first OR element, the outputs of the key block are connected to the inputs of the second encoder and the fourth OR element, the output of which is connected to the input of the fifth one-shot, the output of which is connected to the input of the second shift register and to the second input of the register, the first inputs of which are connected with the outputs of the second encoder, and the outputs with the first inputs of the valve block, with the address inputs of the third analog multiplexer and with the address inputs of the fourth analog multiplexer, the output of which is connected inen with the second input of the first analog multiplexer, the first output of the second shift register is connected to the address inputs of the first-second analog multiplexers, the second and third blocks of ten analog multiplexers and the input of the fourth one-shot, the output of which is connected to the second inputs of the second or third elements OR, the second output the second shift register is connected to the second input of the valve block, the outputs of which are connected by the address inputs of the first and third multiplexers.

Figure 1 presents the structural diagram of the inventive device, figure 2 is a diagram of the blocks of resistive dividers, figure 3 is the location of the LEDs and their corresponding keys, made in the form of buttons.

The device contains first-third 1-3 keys, a toggle switch 4, a voltage ramp generator 5, a calculator 6, a mode switch 7, first-second 8-9 encoders, first-second 10-11 shift registers, first-third 12-14 blocks out of ten analog multiplexers, first to fourth 15-18 analog multiplexers, first to third 19-21 multiplexers, first to second 22-23 analogue storage devices, first to second 24-25 resistive divider blocks, first to second 26-27 blocks from ten voltage-frequency converters, register 28, generator 29 s second pulses, counter 30, first-seventh 31-37 single vibrators, first-fourth 38-41 OR elements, block 42 valves, valve 43, block 44 of ten keys, block 45 light pulse sources and first-second 46-47 indicator blocks .

The first 1 key is used to set the generator 5 in the mode of generating a ramp voltage corresponding to a change in frequency at the output of the voltage-frequency converter 26 at a speed of 1 Hz / s.

The second 2 key is designed to set the generator 5 in the mode of generating a linearly incident voltage corresponding to a change in frequency at the output of the voltage-frequency converter 26 at a speed of 1 Hz / s.

The third 3 key is designed to fix the set frequencies of light flicker.

Keys 1-3 are manual switches to two positions for closing and opening electrical control circuits and are made in the form of control buttons.

The toggle switch 4 is designed to set the modes of setting the frequency of light flicker and determine the resolution of vision by the frequency of light flicker.

The analogue storage devices 22-23 are designed to store voltage and can be performed, for example, according to the scheme [3, Fig. 8.17, p.240].

The voltage-frequency converters of blocks 26-27 correspond to the node 9 of the prototype.

The sources of light pulses of the block 45 correspond to the node 12 of the prototype.

The remaining functional units of the structural diagram correspond to the prototype or are well known.

The device operates as follows. In the initial state, the toggle switch 4 is in a 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 code 100 is written to the shift registers 10-11, the register 28 and the counter 30 are reset (the circuits are not shown), the generator 29 generates second pulses, the generator 5 generates a constant voltage at the output, corresponding to the frequency of light flickering at the outputs of the converters of block 26, equal to 25 Hz, that is, the average frequency of the accepted visible range of light flicker from 0 to 50 Hz.

In this case, the voltage from the output of the generator 5 through the multiplexers of block 12 is supplied to the converters of block 26, where it is converted to frequencies that control the second LEDs of block 45. The frequency from the output of the first converter of block 26 is supplied to gate 43. When the signal of the logic unit is at the output of generator 29, the valve 43 opens, on the leading edge of each signal of the logical unit from the output of the generator 29, the single-shot 31 generates a short pulse, resetting the counter 30. The frequency from the output of the first converter of the block 26 through the open first gate 43 is fed to the count input of the counter 30, the count value displayed on unit 47 displays.

The test by closing the keys 1 or 2 sets the specified initial F _H light flicker frequency. To set the initial F _H light flicker frequency greater than 25 Hz, the subject closes the key 1. The signal from the output of the key 1 through the switch 7 modes sets the generator 5 in the mode of generating a ramp voltage with a given speed. The control of the second LEDs of the block 45 and the output of the result of counting the frequency of light flicker to the block 47 of the indicators is carried out similarly as described above. To set the initial F _H light flicker frequency to less than 25 Hz, the test subject closes the key 2. The signal from the output of the key 2 through the mode switch 7 sets the generator 5 to the mode of generating a linearly incident voltage at a given speed. The control of the second LEDs of the block 45 and the output of the result of counting the frequency of light flicker to the block 47 of the indicators is carried out similarly as described above. When the keys 1 or 2 are opened, the generator 5 stores a constant voltage at the output corresponding to the set initial F _H light flicker frequency at the output of the converters of block 26.

The test subject closes the key for a short time 3. The pulse from the output of the key 3 shifts the state of the register 10 by one bit to the right, the signal of the logical unit from the first output of the register 10 through the OR element 39 is fed to a single-shot 32, which generates a pulse to the device 23 from its leading edge. The device 23 stores the voltage supplied from the output of the generator 5 through the multiplexer 16, corresponding to the set initial F _H light flicker frequency at the output of the converters of block 26.

The test of the closure of the key 1 sets the incremental F _{AND the} frequency of light flickering equal to F _H +2.5 Hz. The signal from the output of the key 1 through the switch 7 modes sets the generator 5 in the mode of generating a ramp voltage with a given speed. The control of the second LEDs of the block 45 and the output of the result of counting the frequency of light flicker to the block 47 of the indicators is carried out similarly as described above.

The test subject closes the key for a short time 3. The pulse from the output of the key 3 shifts the state of the register 10 by one bit to the right, the signal of the logical unit from the second output of the register 10 through the 40 element OR is fed to the one-shot 33, which generates a pulse to the device 22 from its leading edge. The device 22 remembers the voltage supplied from the output of the generator 5 through the multiplexer 15, corresponding to the set incremental F _{And the} frequency of light flickering at the output of the converters of block 26.

The test subject switches the toggle switch 4 to the position corresponding to the measurement mode. The voltage from the device 23 according to the current initial frequency F _H of light flashes, is supplied to a block divider 24, which outputs the first constant voltages ten blocks through multiplexers 13 and 12 respectively come to the inputs of the ten frequency-voltage transducer unit 26. The output of the first inverter is formed decremental frequency equal to F _H - 0,25 Hz, at the output of each successive inverter is formed by frequency, reduced compared to the frequency at the output of the preceding inverter to 0.25 c. The frequencies from the outputs of the ten converters of block 26 are respectively supplied to block 45 and control by its second LEDs.

The voltage from the device 22, corresponding to the installed incremental F _{AND the} frequency of light flickering, is supplied to the block 25 dividers. Voltages from the first outputs of block 25 of the dividers through block 14 of multiplexers are supplied to the inputs of ten converters of block 27, and the voltage from the tenth output goes to the input of the first converter, the voltage from the ninth output to the input of the second converter, etc. An incremental frequency equal to F _H +2.5 Hz is formed at the output of the tenth voltage-frequency converter of unit 27, and a frequency reduced by 0.25 Hz compared to the frequency at the output of the subsequent converter is formed at the output of each previous converter. The frequencies from the outputs of the ten converters of block 27 are respectively sent to block 45 and control its first LEDs.

At the first stage of measurements, the test subject determines the pair of LEDs with the highest number, the frequencies of light flickering of which do not differ, and closes the corresponding key of block 44, the output signal of which goes to encoder 9 and OR element 41. The private key code from the output of the encoder 9 is sent to the register 28, the signal from the output of the element 41 OR to the one-shot 35, the pulse from the output of which writes the private key code to the register 28. The signal from the output of the one-shot 35 shifts the state of the register 11 by one bit to the right. The signal of the logical unit from the first output of the register 11 is supplied to the address inputs of the multiplexers of blocks 13-14 and multiplexers 15-16.

The closed key code from the output of the register 28 is supplied to the address inputs of the multiplexers 17-18 and to the gate inputs of the block 42. The voltage corresponding to the decrement frequency F _{D of the} second LED of the pair with the highest number, the light flicker frequencies of which do not differ, from the output of the block 24 dividers through multiplexers blocks 13-12 and multiplexers 17-16 is supplied to the device 23. The voltage corresponding to the incremental frequency F _{And the} first LED of the pair with the highest number, the frequencies of light flickering which do not differ, from the output of block 25 de litel through the multiplexer unit 14 and the multiplexers 18 and 15 enters the device 22.

At the same time, the signal of the logical unit from the first output of the register 11 is fed to a single-shot 34, which at its leading edge generates a pulse arriving at the elements 39-40 OR. The signal of the logical unit from the output of the OR element 39 is fed to a single-vibrator 32, which generates a pulse at its leading edge that arrives at device 23. The device 23 stores the voltage corresponding to the decrement frequency F _{D of the} second LED of the pair with the highest number, the frequencies of light flickering of which do not differ . The signal of the logical unit from the output of the OR element 40 is fed to a single-vibrator 33, which generates a pulse at its leading edge that arrives at device 22. The voltage corresponding to the incremental frequency F _{AND of the} first LED of the pair with the highest number, the frequencies of light flickering does not differ, is stored in device 22 .

The voltage from the device 23 corresponding to the decrement frequency F _{D of the} second LED of the pair with the highest number, the light flicker frequencies of which do not differ, is supplied to block 24 dividers, from the second outputs of which ten constant voltages through the multiplexers of blocks 13-12 are supplied respectively to the inputs of ten block converters 26. At the output of the first inverter formed decremental frequency F _D corresponding to the second LED decremental frequency pair with the highest number, frequencies of light flashes Kotor nd not differ, the output of each inverter is formed subsequent frequency, reduced compared to the frequency at the output of the preceding inverter to 0.05 Hz. The frequencies from the outputs of ten voltage-frequency converters of block 26 are respectively supplied to block 45 and control by its second LEDs.

The voltage from the device 22, corresponding to the incremental frequency F _{And the} first LED of the pair with the highest number, the frequencies of light flickering which do not differ, is fed to the block 25 dividers. The voltages from the second outputs of the block 25 dividers through the block 14 of the multiplexers are fed to the inputs of ten converters of the block 27, and the voltage from the tenth output goes to the input of the first converter, the voltage from the ninth output to the input of the second converter, etc. At the output of the tenth converter, an incremental frequency F _{И is formed} , corresponding to the incremental frequency of the first LED of the pair with the highest number, the frequencies of light flickering of which do not differ, at the output of each previous converter, a frequency is reduced that is 0.05 Hz lower than the frequency at the output of the subsequent converter. The frequencies from the outputs of the ten converters of block 27 are respectively sent to block 45 and control its first LEDs.

At the second stage of measurements, the test subject determines a pair of LEDs with the lowest number, the frequencies of light flickering of which differ, and closes the corresponding key of block 44, the output signal of which goes to encoder 9 and OR element 41. The private key code from the output of the encoder 9 is sent to the register 28, the signal from the output of the element 41 OR to the one-shot 35, the pulse from the output of which writes the private key code to the register 28. At the same time, the signal from the output of the single-shot 35 shifts the state of the register 11 by one bit to the right. The signal of the logical unit from the second output of the register 11 enters the valves of block 42 and opens them. The closed key code from the output of the register 28 through the open valves of the block 42 is supplied to the address inputs of the multiplexers 19 and 21.

When the logic unit signal at the output of the generator 29, the frequency corresponding to the incremental frequency F _{And the} first LED of the pair with the lowest number, the frequencies of light flickering which differ, from the block of converters 27 through the multiplexers 21-20 goes to the calculator 6. When the signal is a logic zero at the output of the generator 29 the frequency corresponding to the decrement frequency F _{D of the} first LED of the pair with the smallest number, the light flicker frequencies of which differ, from the block of converters 26 through the multiplexers 19-20 is fed to numerator 6.

On the leading edge of the signal of the logical unit from the output of the generator 29, the single-vibrator 36 generates a pulse transmitted through the OR element 38 to the calculator 6, in which the value of the frequency corresponding to the incremental frequency F _{AND of the} first LED of the pair with the lowest number, the frequencies of light flickering differ, is written. On the trailing edge of the signal of the logical unit from the output of the generator 29, the single-vibrator 37 generates a pulse transmitted through the OR element 38 to the calculator 6, in which the frequency value corresponding to the decrement frequency F _{D of the} second LED of the pair with the lowest number, the frequencies of light flickering differ, is written.

The calculator 6 calculates the difference of the frequencies ΔF = F _AND -F _D fixed in the second stage, equal to the value of the resolution of vision by the frequency of light flickers, displays the result of the calculations on the block of 46 indicators, after which it generates a pulse that sets the device to its original state (circuits not shown) .

Thus, the claimed device allows to reduce the time to determine the resolution of vision by the frequency of light flicker, due to which it can be used in mass surveys.

Information sources

1. A.S. 1333307 USSR, A61B 5/16. A device for measuring the critical frequency of light flicker. / G.G. Baranov, R.G. Vaganov, R.Sh. Mardanov, M.N. Shevtsov (USSR). - Publ. 08.30.87, Bull. Number 32.

2. Patent 2365334 of the Russian Federation, A61B 5/16. A device for measuring the resolution of vision by the frequency of light flicker. / V.V. Rozhentsov, T.A. Lezhnina (RF). - 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 determining the resolution of vision by the frequency of light flickering, containing the first or second keys, a ramp generator, a calculator, a mode switch, a second pulse generator, a counter, a single vibrator, an OR element, a valve and the first and second indicator blocks, the outputs of the first and second keys are connected respectively to the first and second inputs of the mode switch, the output of which is connected to the input of the ramp generator, the output of the second pulse generator is connected is connected to the second input of the valve and the input of the one-shot, the output of which is connected to the input of zeroing the counter, the counting input of which is connected to the output of the valve, and the outputs to the inputs of the second block of indicators, the output of the OR element is connected to the second input of the computer, the outputs of which are connected to the inputs of the first block indicators, characterized in that it additionally includes a third key, toggle switch, first to second encoders, first to second shift registers, first to third blocks of ten analog multiplexers, first to fourth multiplex analogue ory, first-third multiplexers, first-second analogue storage devices, first-second blocks of resistive dividers, first-second blocks of ten voltage-frequency converters, register, second-seventh one-shots, second-fourth elements OR, valve block, block of ten keys, a block of light pulse sources, the output of a ramp generator being connected to the first inputs of the first block of ten analog multiplexers and the first inputs of the first or second multiplexers an analog, the toggle switch outputs are connected to the inputs of the first encoder, the outputs of which are connected to the address inputs of the first block of ten analog multiplexers, the second inputs of which are connected to the outputs of the second block of ten analog multiplexers, and the outputs to the inputs of the first block of ten voltage-frequency converters and the first inputs of the third analog multiplexer, the output of which is connected to the second input of the second analog multiplexer, the output of which is connected to the first input of the second analog device memory, the second input of which is connected to the output of the second one-shot, and the output - to the input of the first block of resistive dividers, the outputs of which are connected to the inputs of the second block of ten analog multiplexers, the outputs of the first block of ten voltage-frequency converters are connected to the first inputs of the valve, the second the inputs of the block of light pulse sources and with the inputs of the first multiplexer, the output of which is connected to the first input of the second multiplexer, the second input of which is connected to the output of the third multiplexer Xor, and the output is with the first input of the calculator, the output of the third key is connected to the input of the first shift register, the first output of which is connected to the first input of the second OR element, the output of which is connected to the input of the second one-shot, the second output of the first shift register is connected to the first input of the third element OR, the output of which is connected to the input of the third one-shot, the output of which is connected to the second input of the first analog storage device, the first input of which is connected to the output of the first multiplexer and the output is with the input of the second block of resistive dividers, the outputs of which are connected to the inputs of the third block of ten analog multiplexers, the outputs of which are connected to the inputs of the fourth analog multiplexer and the inputs of the second block of ten voltage-frequency converters, the outputs of which are connected to the first inputs of the block light pulse sources and inputs of the third multiplexer, the output of the second pulse generator is also connected to the address input of the second multiplexer and the inputs of the sixth and seventh dibrators, the outputs of which are connected respectively to the first and second inputs of the first OR element, the outputs of the key block are connected to the inputs of the second encoder and the fourth OR element, the output of which is connected to the input of the fifth one-shot, the output of which is connected to the input of the second shift register and the second input of the register, the first inputs of which are connected to the outputs of the second encoder, and the outputs - with the first inputs of the valve block, with the address inputs of the third analog multiplexer and with the address inputs of the fourth multiplex ora analog, the output of which is connected to the second input of the first analog multiplexer, the first output of the second shift register is connected to the address inputs of the first-second analog multiplexers, second-third blocks of ten analog multiplexers and the input of the fourth one-shot, the output of which is connected to the second inputs of the second-third OR elements, the second output of the second shift register is connected to the second input of the valve block, the outputs of which are connected by the address inputs of the first and third multiplex moat.

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