CS203359B1 - Connection for automatic measuring the motoric performances in the experimental psychology - Google Patents

Description

The invention provides a circuit for the automatic measurement of different types of motor power by means of electronic logic circuits in psychological experimentation.

When measuring motor skills or measuring visual-coordinate coordination in experimental psychology, the movements performed by the investigated person are targeted and must be performed according to the specified program. The hand movements are sensed by conductive instrument instrumental tests and in the experimental panel. The target points are activated by relay units and the sensed touches to the register are evaluated or evaluated !. During fast movements, the contacts are short and follow in quick succession, which the relay system can no longer handle reliably. Wiring according to the invention by means of electronic circuits meets the increased speed requirements.

The principle of the invention in the circuit for the automatic measurement of motor power according to the invention consists in the fact that there are fewer two connected circuit circuits, where the first switch comprises a first transistor having a collector plunged to the positive pole of the source, a smoker to a first active point, a base to a second input of a first inverse logic circuit product having a first input connected to a first passive point, and an output to a first input of a first bistable flip-flop. This circuit has an output connected to a second input of the first inverse logic circuit product and a second input to the output of the last bistable flip-flop. The last switching circuit consists of the last transistor having the collector connected to the positive pole of the source, the emitter to the last active point, the base to the second input of the last inverse logic circuit product, which has the first input connected to the last passive point and output to the first input circuit. This circuit has an output connected to a second input of the last inverse logic circuit of the product and a second input to the output of the first bistable flip-flop.

The advancement of the invention is that it allows automated psychological instrumentation tests by electronic circuits to measure motor power at the most. The automation provides an automatic measurement process, an automatic monitoring of the measurement process and the possibility of instant evaluation of the measurement results even in the fastest movements.

2C3359

203353

The circuit according to the invention is schematically shown in the attached drawing and consists of a first transistor having a collector connected to the positive pole of the source, an emitter to a first active point base at a second input of the inverse logic circuit of product 2. » and output to the first input of the first bistable flip-flop 10. This bistable flip-flop 10 has an output connected to a second input of the first inverse logic circuit of the product 8 and a second input to the output of the last bistable flip-flop 10. The last transistor 2 has a collector connected to the positive pole of the source. base on the second input of the last inverse logic circuit product 9, which has a first input connected to the last passive point 6. and output to the first input of the last bistable flip-flop circuit 1.1, 9 and a second input to the output of the first bistable flip-flop W ^and through the contacts of the reset button 2 ^{to the} positive pole of the source,

The circuitry of the invention is as follows:

By pressing the reset button 7 with one fixed position, a positive pulse is received at the second input of the last bistable flip-flop 11, this flips, at its output a low logic level, which is transferred to the second input of the first bistable flip-flop 10. and at its output there will be a high logic level, which will reach the second input of the first logic inverse circuit of product 8, and at the base of the first transistor r * into will open and to the first hotspot 3. a positive voltage is obtained by joining the first active point 2 and the first passive point 4 a positive pulse is applied to the first input of the first inverse logic circuit of the product 8 and outputs a low logic level which is converted to the first input of the first bistable flip-flop 10 this is reversed, its logic level is also output, the first transistor 1 closes, the positive voltage ceases at the first active point 2, and the high logic level 8 is generated at the first and second outputs of the inverse logic circuit. The low logic level from the output of the first bistable flip-flop 10 reaches the second input of the last bistable flip-flop 11, this flips, generating a high logic level at its output, which gets to the second input of the last inverted logic the last transistor 2 * is opened, the positive one reaches the last active point 5, * by connecting this active point 5 to the last passive. bodoin 6 receives a positive pulse on the first input of the last inverse logic circuit of the product 9 and produces a low logic level at its output, which is transmitted to the first input of the last bistable flip-flop 11, which flips over and produces logic level, the last transistor 2 closes, at the last active point 5, a positive voltage, at the first and second inputs of the last inverse logic circuit of product 9, the high logic levels disappear. The low logic level from the output of the last bistable flip-flop 11 reaches the second input of the first bistable flip-flop 10 and the wiring operation will be repeated in the manner described above.

Active points 2 * £ ^and passive points 4. »2 represent the connection points in the experimental pannier and εύ connected by the person in the motor activity,

Involvement of the invention can be used in automatic activity psychological instrumentation tests that measure the least visual-motor coordination and degree of fine motor skills.

Claims (2)

The circuitry for automatic measurement of motor power in experimental psychology consists of at least two equally connected switching circuits, characterized in that the first transistor (1) has a positive-pole collector. source emitter on the first hotspot / 3 / and base to a second input of the first inverted logic product of / 8 /, having a first input connected to the first passive point / 4 / and output to the first input of the first flip-flop / 50 / _f who The output is connected to the second input of the first inverse logic circuit of the product (8) and the second input to the output of the last bistable flip-flop (11), the last transistor (2) has a collector connected to the positive pole of the source. , base on the second input of the last inverse logic circuit product / 9 / which has the first input connected 20-3359 to the last (11) which (9) and the second reset passive point (6) and the output to the first input of the last binary flip-flop has an output connected to the second input of the last inverse logic circuit product circuit (10) and via the make contact of the button (7) to the positive pole of the source.