SU167955A1 - DEVICE FOR MEASURING THE HIDDEN PERIOD OF MOTOR REACTION BRAKING - Google Patents

Description

Instruments for measuring the latent period of inhibition of a motor reaction, comprising an electronic measuring circuit, a scaler and a power source, are known.

In the proposed device, in contrast to the known, a photoelectric sensor mounted on a limb is installed, when changing the speed of movement of which relative to the source of illumination, electric impulses appear that characterize the movement of the limb in space. Such an instrument performance allows the motor reaction to be recorded in three-dimensional space in time.

The drawing shows the electrical circuit of the proposed device.

The device contains a photoelectric sensor 1, which is fixed on the ring. The sensor is illuminated by a light source. With a sharp change in the speed of movement of the photoelectric sensor relative to the light source, the light intensity of the sensor changes dramatically, which leads to the appearance of a transient electrical process recorded by the electrical circuit of the device. The signal from the sensor enters the circuit from the moment the signal is turned on to the termination of some movement of the limb, performed arbitrarily in three-dimensional space. The device registers

the time interval between the signal to stop the movement and the cessation of this movement. This period of time is called the latent period of inhibition of the motor reaction.

A photodiode loaded on resistance 2 was used as a sensor for changing the speed of movement. The voltage drop across resistance 2 caused by a change in current flow through the photodiode three abrupt changes in illumination; the photodiode during deceleration of a motor reaction forms a video pulse that is applied to a control unit through a capacitor 3 the grid of the lamp 4, operating in the cathode repeater mode. From the load 5 of the cathode repetitive signal, the signal from the sensor enters the transistor 6 through the capacitor 7. Transistor 6 operates in the key mode, which serves to split the video pulse from the sensor into a series of rectangular pulses, the shape and frequency of which are determined by parameters of a multivibrator assembled, for example, on the electron tube S.

Resistance 5 simultaneously performs the role of the load of transistor 6, therefore the signal from resistance 5, modulated by rectangular pulses, is fed to the input of the transistor amplifier by buffer semiconductor to match the cathode output impedance of the high input impedance of the amplifier to the edge of the TEXT lamp 4 From the anode of the lamp 4 series of pulses with a fixed repetition rate, the number of which corresponds to the duration of the video pulse from the sensor /, 1 is applied to the conversion circuit 10.

Thus, the rectangular pulses or multivibrator perform the role of a carrier frequency modulated by a signal from the sensor. To measure the latent period of motor reaction braking, apparently satisfactory results can be achieved at a carrier frequency of 1,000 to 10,000 Hz. With a carrier frequency of 1000 Hz, the time of the brake N, ... AG

married g - where / is the carrier frequency; N -

the number of pulses recorded by the scaling circuit.

By applying a capacitor 3 with a capacity of several tens of microfarads, and a resistivity of 11 units of units of megam, one can obtain a constant input circuit time of the device, which is quite sufficient to measure the braking period of the reaction, which is of practical interest.

When using the device, the sensor / is fastened on the limb, with which the subject makes some movement in space. By pressing a key 12, the experimenter sends a signal to, for stopping, the movement synchronously with the start of the electric circuit of the instrument, which automatically interrupts the countdown of time at the moment of termination of motion,

PREEMO invention

A device for measuring the latent period of braking of the motor reaction, containing an electronic measuring circuit, a scaler and a power source, characterized in that, in order to register the motor reaction in three-dimensional space in time, a photoelectric sensor mounted on the limb is installed in it when measuring the speed of movement which, relative to the source of illumination, electric impulses arise that characterize the movement of an extremity in space.