CS232003B1 - General purpose apparatus for psychological investigation - Google Patents

Abstract

The purpose of the device is to bond the possibilities vyáetování for different standard conditions, both critical frequency measurements flicker, as well as the reactionary Sasa. The basis for critical frequency measurements flicker is a tunable oscillator i, from which the pulses are routed to the output of circuit 2 and into the derivative circuit J of which it is derived output goes pulses to combinational circuit and generates counter counters 34. At the input of the counter 34 are im- 10 kHz pulses from oscillator 4 through combinatorial circuit. The basis for measuring the reaction Time is a random pulse generator that are formed by pulses from the derivative oscillator circuit 2 8 combinational circuits. Counters 34 are loaded at the input 100 Hz pulses from oscillator 33 through combinational circuits. Zeroing pulses are obtained from a random pulse by combinational circuits. The combinational circuits are formed by gates and monostable flip-flops circuits.

Description

Author of the invention TŮMA VLADIMÍR ing., PRAGUE ( ⁵⁴ ) Universal device for psychological examinations

The purpose of the instrument is to bond the possibilities of investigation under various standard conditions, both the measurement of the critical flashing frequency and the reaction Sase.

The basis for measuring the critical flicker frequency is a tunable oscillator i, from which the pulses are routed to the output circuit 2 and to the derivative circuit J, from which the pulses are output to the combination circuit and generate counter pulses 34. from oscillator 4 through the combination circuit. The basis for measuring the reaction time is a random pulse generator, which is generated by pulses from the derivative circuit ^{28 of the} oscillator ^{28 of the} combinational circuits. At the input of the counter 34, pulses of 100 Hz from the oscillator 33 are applied through the combination circuits. Zero pulses are obtained from a random pulse using combination circuits. Combination circuits consist of gates and monostable flip-flops.

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The invention solves the construction of a universal device for psychological examinations, which makes it possible to detect the critical flicker frequency and the reaction time, in particular at field friction levels.

The prior art technique for measuring the critical flicker frequency is basically based on two principles - the light source is controlled by electric pulses or is obscured by the orifice, while the reversal was performed mechanically. Similarly, the determination of reaction time is carried out primarily in the laboratory. The critical flash rate meter and reaction time meter were separate instruments and therefore it was not possible to compare the measured values accurately. The measurement of the critical frequency with respect to the reaction time is also refined. no similar sequential automat was used in any similar instrument as in the proposed one, which significantly reduces the price and also improves the measurement.

These drawbacks are eliminated by a universal psychological investigation device, which is based on the fact that the output from the tunable oscillator is connected to the first contact of the first switch and to the input of the derivative circuit. The third contact of the first switch is connected to the input of the output circuit. The second contact of the first switch is connected to the third clock of the second switch. The output of the differentiating circuit is connected to the first inputs of the fifth, sixth, ninth product gate with inverted output and the second input of the seventh product gate with inverted output, the output of the first oscillator is connected to the first contact of the third switch. The output of the second oscillator is connected to the second contact of the third switch. The third contact of the third switch is connected to the first inputs of the first and second product gate with inverted output. The output of the first inverted output product gate is connected to the second inverted output second gate. The output of the second inverted output gate is connected to the input of the second inverter whose output is connected to the first counter input. The output of the trigger circuit with the respond button is connected to the input of the first monostable flip-flop, the output of which is connected to the third contact of the fourth switch and to the input of the fourth inverter. The second contact of the fourth switch is connected to the first contact of the fifth product gate and to the first input of the third product gate with inverted output and to the second input of the first product gate with inverted output. input of seventh product gate with inverted output. The second contact of the fifth switch is connected to the second inputs of the third and fourth inverted output products gate, the output of the third inverted output product gate is connected to the first inverted output of the fourth inverted output gate, the output of which is connected to the third inverter input. The output of the third inverter is connected to the second contact of the second

232 003 of the switch and the input of the first inverter whose output is connected to the first contact of the second switch. The output of the fifth product gate with inverted output is connected to the second input of the sixth product gate with inverted output, the output of which is connected to the first contact of the sixth switch. The third contact of the sixth switch is connected to the input of the fifth inverter, whose output is connected to the second input of the (reset) counter. The output of the fourth inverter is connected to the second input of the eighth product gate with inverted output. the output of the seventh product gate with inverted output is connected to the first contact of the seventh switch. The third contact of the seventh switch is connected to the input of the second monostable flip-flop whose output is connected to the input of the sixth inverter and to the second contact of the sixth switch and to the third contact of the fifth switch. The output of the sixth inverter is connected to the first input of the eighth inverted output product gate whose output is connected to the first input of the tenth inverted output product gate. The output of the third oscillator is connected to the second input of the ninth product gate with inverted output, whose output is connected to the input of the seventh inverter, whose output is connected to the second inputs of the tenth and eleventh product gate with inverted output. The output of the tenth product gate with inverted output is connected to the first input of the eleventh product gate with inverted output, the output of which is connected to the second contact of the seventh switch.

In comparison with the prior art and abroad, the device allows to measure, by means of one device, both the critical flashing frequency and the reaction time, these two values objectively compare the flashing frequency, to specify the critical flashing frequency value with respect to the reaction time. Measurements can be made under various standard conditions such as light source area, light dark ratio, wavelength and brightness of the light source, light response respectively. sound or darkness respectively. silence, etc. This gives a wide range of features to the device, while its relative simplicity allows for battery operation in addition to easy handling. Considerable is also low weight, minimal implementation costs and digital output.

One particular embodiment of the apparatus is shown in the attached drawing.

It is evident from the drawing that practically all components used in the critical flashing frequency meter are also used for reaction time measurement.

The output of the tunable oscillator 3 is connected to the first contact 81 of the first switch and to the derivation circuit input. The third contact 83 of the first switch 8 is connected to the input of the output circuit 6. The second contact 82 of the first switch 8 is connected to the third contact 83 of the second switch 8. The first inputs of the fifth, sixth, ninth product gate 23.24.28 are inverted and the second input of the seventh product gate 26 with inverted output is connected. The first oscillator J is connected to the first contact lol of the third switch IQ. The output of the second oscillator 33 is connected to the second contact 102 of the third switch 10. The third contact 103 of the third switch 10 is connected to the first inputs of the first and second product gate with an inverted output. The output of the first inverted output 16 is connected to the second input

232 003 «Τ of the second inverted output product 17, the output of the inverted output 17 is connected to the input of the second inverter 18, the output of which is connected to the first input of the counter 34. a monostable flip-flop 2 whose output is connected to the third contact 13J of the fourth switch 11 and to the input of the fourth inverter 12; the second contact 112 of the fourth switch 11 is connected to the first contact 121 of the fifth switch 12 and to the first input of the third product gate 20 with inverted output; to the second input of the first Ift gate with inverted output. The first contact 111 of the fourth switch 11 is connected to the second input of the fifth inverted output 23 and the first input of the seventh inverted output. The second contact 122 of the fifth switch 12 is connected to the second inputs of the third and fourth gate 22 * 21 with an inverted output. The inverted output of the third inverted output 20 is connected to the first inverted output of the fourth inverted output 21, the output of which is connected to the third inverter 22 input, the third inverter 22 output is connected to the second contact 92 of the second switch 2 and the first inverter 15 · the output is connected to the first contact 91 of the second switch 2 · The output of the fifth product gate 23 and the inverted output is connected to the second input of the sixth product gate 24 with inverted output whose output is connected to the first contact 121 of the sixth switch 13> The third contact 133 of the sixth switch 13 is connected to the input of the fifth inverter 25 »whose output is connected to the second input of the (reset) counter 21» the output of the fourth

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the inverter 19 is connected to the second input of the eight product gate 28 with an inverted output. The output of the seventh inverted output gate 26 is connected to the first contact 1111 of the seventh switch 14 »The third contact 14-3 of the seventh switch 14 is connected to the input of the second monostable flip-flop 2» whose output is connected to the input of the sixth inverter 27 and to the second contact 132 The output of the sixth inverter 27 is connected to the first input of the eighth inverted output 28, whose output is connected to the first input of the tenth inverted output 31. J output of the third oscillator is connected to the second input of the ninth gate 29 e inverted output, the output of which is connected to the input of the seventh inverter 22 »j ^e Hoz output is connected to the second inputs tenth and eleventh-gate 31.32 ⁸ inverted output. The output of the tenth inverted output product gate 31 is connected to the first inverted output eleven product gate 32, the output of which is connected to the second contact 142 of the seventh switch 14.

In the case of measuring the critical flicker frequency, the pulses from the tunable oscillator 2 generating rectangular pulses with an adjustable pulse gap ratio of 20-60 Hz »through the switch 2 to the output circuit 2 and also to the derivative circuit 2» pulses (lo kHz), which passes through the gate 16.17.18 to the counter input 24 * pulse from the trigger circuit 35 with the respond button triggers a monostable flip-flop 2 »thus blocking the reset ipmul with gate 22 * First

232 003, the incoming reset pulse, which comes into effect after the monostable flip-flop 5 has changed, triggers the monostable flip-flop 6 through the gate 26, thereby blocking the 10kHz pulses at the input of the counter 34 with the gate 16. 11.12.13.14 switched. the pulses from the tunable oscillator 1 pass through the derivative circuit 3 and generate together with the pulses from the oscillator j by means of the gates 20. 30 random pulses. The random pulse passing through the gates and switches 14 triggers the monostable flip-flop. When the monostable flip-flop 5 or 3 is in the active state, the random pulse is blocked by the gates 15.16 with the gates A2.22.2fl. by means of a gate 25, it clears the reset input of the counter 34 and at the same time a logic zero or one appears at the input of the output circuit 6, depending on how the switch 3 is switched, e.g. measuring the response to light or darkness. an impulse from the trigger circuit 35 with the respond button pushes the monostable flip-flop circuitry 6 into an active state. Thereby, the output circuit 6 is applied via the quiescent gate 20 to acknowledge the respondent response, and at the same time the 100 Hz pulses generated by the oscillator 33 which pass through the gate 16.17.18 to the counter input 34 are blocked by the gate 16.

It can be assumed that psychological workplaces will primarily use this device. However, it is also possible to use pepper in other medical fields. sports medicine.

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SUBJECT OF THE INVENTION

Claims (1)

Universal apparatus for psychological examination, characterized in that the output of the tunable oscillator (1) is connected to the first contact (81) of the first switch (8) and to the derivation circuit input (3), the third contact (83) of the first switch (8) is connected to the output of the output circuit (2) »the second contact (82) of the first switch (8) is connected to the third contact (93) of the second switch (9), the first inputs of the fifth, sixth, ninth product an inverted output gate (23,24,29) and a second inverted output seventh product gate (26), the output of the first oscillator (4) is connected to the first contact (10l) of the third switch (lo) »the output of the second oscillator (33) is connected to the second contact (102) of the third switch (lo), the third contact (103) of the third switch (lo) is connected to the first inputs of the first and second product gate (16, 17). an inverted output, the output of the first inverted output product gate (16) is connected to the second inverted output of the second inverted output product gate (17), the inverted output of the second inverted output product gate (17) is connected to the input of the second inverter (18). is connected to the first input of the counter (34), the output of the trigger circuit (35) by the 8 button is connected to the input of the first monostable flip-flop (5), the output of which is connected to the third contact (II3) of the fourth switch inverter (19), the second contact (112) of the fourth switch (11) is connected to the first contact (121) of the fifth switch (12) and to the 232 003 ~ <3 the first input of the third inverted output (20) and to the second input of the first inverted output (16), the first contact (111) of the fourth switch (11) is connected to the second input of the fifth inverted output (23) and with an inverted output and a first inverted output of the seventh product gate (26), the second contact (122) of the fifth switch (12) is connected to the second inputs of the third and fourth inverted output product gate (20, 21). the inverted output product gate (20) is connected to the first inlet of the fourth inverted output product gate (21) whose output is connected to the third inverter (22) input, the third inverter output (22) is connected to the second contact (92) of the second switch (9) and the input of the first inverter (15), the output of which is connected to the first contact (91) of the second switch (9), output of the fifth the inverted output gate (23) is connected to the second input of the inverted output sixth gate (24) whose output is connected to the first contact (I3I) of the sixth switch (I3), the third contact (I33) of the sixth switch (I3) is connected to input of fifth inverter (25), output of which is connected to second input (reset) Counters (34), output of fourth inverter (I9) is connected to second input of eighth product gate (28) with inverted output, output of seventh product gate (26) with inverted output is connected to first contact (I4I) of seventh switch (14), third contact (I43) of seventh switch (I4) is connected to input of second monostable flip-flop (6) »whose output is connected to input of sixth inverter (27) and at the second contact (I32) of the sixth switch (I3) and at the third contact (123) of the fifth switch (12), the output of the sixth - 40 232 003 of the inverter (27) is connected to the first input of the eighth inverted output product gate (28), the output of which is connected to the first output of the inverted output tenth product gate (3l), the output of the third oscillator (7) is connected to the second an input of a ninth product gate (29) with an inverted output whose output is connected to an input of a seventh inverter (30) whose output is connected to the second inputs of a tenth and eleven product gate (31,32) with an inverted output, output of a tenth product gate (31) the inverted output is connected to the first input of the eleventh inverted output gate (32), the output of which is connected to the second contact (I42) of the seventh switch (I4).