CS209793B1 - Involvement in a circle-free touch-up by living organisms in psychological experimentation - Google Patents

Abstract

The invention relates to a circuit-free connection for touch switching by a living organism in psychological experimentation. The stated purpose is achieved by a connection whose input is connected via a coupling capacitor to the base of the first and second transistors of different conductivity types. The collector of the first transistor and the emitter of the second transistor are connected to the output. The emitter of the first transistor and the collector of the second transistor are connected to the base of the third transistor. This transistor has a collector connected to the output and through a working resistor to the positive pole of the source, and the emitter is connected to the negative pole of the source. The use of the connection according to the invention is possible in several experimental psychological instrument methodologies such as measuring motor skills by transferring balls, pins, all types of tapping, tracking and dotting, as well as in solving test tasks such as a blue disk, a number square, various types of reaction meters, etc.

Description

The invention solves the involvement of circuit-free touch switching by living organisms in psychology for experimentation.

When detecting and measuring psychological variables of the examined organism it is necessary to record certain activity »eg. motoric, responses to suggestions, statements in solving tasks, etc.

This activity is captured by closing the electrical circuit by pressing a button, contacting, touching the tip on a metal surface, touching its own body that enters the electrical circuit, inductively as the sensor approaches, and so on. All methods must have switching elements connected to the conductor. In some psychological examinations, these ways of restraint are best when experimenting with young children or where some reductions may not be obvious. These drawbacks are eliminated by the involvement of a circuit-free touch switch by a living organism in the psychological testing according to the invention.

The essence of the invention is that the input is connected via a coupling capacitor to the base of the first and second transistors of different conductive types. The collector of the first transistor and the emitter of the second transistor are connected to the output. The emitter of the first transistor and the collector of the second transistor are connected to the base of the third transistor. This has a collector connected to the output and through a working resistor to the positive pole of the source and the emitter to the negative pole of the source.

Advances of the invention are that it allows switching by touch without connecting the power line to the organism and without preliminary preparation in experiments with the human organism, as well as the possibility of experimentation without limiting interference with animals to detect their presence, movement, activity and the like.

The circuit according to the invention is shown in the appended drawing and consists of an input 6 which is connected via a coupling capacitor 2 to the base of the first transistor 3 as well as to the base of the second transistor 6. The collector of the first transistor 6 and the emitter · of the second transistor 4 are connected to the base of the third transistor 6. This has a collector connected to the output 7 ^and via a working resistor 6 to the positive pole of the source and an emitter to the negative pole of the source.

The operation of the wiring according to the invention is as follows.

The electrical signal, when touched, reaches the input 6, passes through a coupling capacitor 6 to the base of the first N-P-N transistor 6 and to the base of the second P-N-P transistor 6. In the case of the positive polarity signal, the first transistor 3 opens, in the case of the negative polarity signal, the second transistor 5, in both cases a positive voltage is applied to the base of the third NPN transistor 5 which opens. _7. Bipolar amplification allows switching whether the living organism carries an alternating electrical component or a positive or negative potential.

Generally, the living organism carries induced AC voltage from the mains and this voltage at 50 Hz reaches several volts in the area of the mains. This voltage is used in accordance with the invention to control the switching device by applying to the collecting sensor in the form of a conductive target, a segment, a conductor which is connected to the input of the device when the living organism is touched. The signal from the wiring output T is passed to a counting or recording device.

In addition to the network frequencies, the whole spectrum of radio and television broadcast frequencies as well as attenuated frequencies from electrical discharges, which together only increase the potential of the switching device according to the invention, are induced on the living organism. In addition, the living organism acquires electrical charges of different polarity by friction during movement or by chemical polarization. Therefore, it is necessary that the obtained induced signal from the living organism be amplified in both polarities so that the input capacitor is not blocked during potential equalization. alternating component, which would e.g. when tapping is measured, with up to 15 touches per second and only a few hundredths of a second per touch, it interferes with the amplifier's switching function. The pick-up sensors shall be either small in size or shielded so that the induced currents are not the source of the control signal itself.

209893

Only exceptional cases can occur if small organisms, insects and the like are not taken into account, when the induced voltage is insufficient or requires too great an amplification to use the switching according to the invention. This is either in electrically shielded areas or in remote areas without power supply.

In cases where a stronger electrical switching signal is required than the electric field generated in the measurement area, it is necessary to create this field, for example, by a loop, by a thread in the measuring area powered by alternating current,

Application of the invention is possible in several experimental psychological instrumentation methodologies such as measuring motorics by reloading bullets, pins, all kinds of teping, tracking and dotting, as well as solving problems such as mazes, number squares, different types of reaction meters etc.

Claims (2)

209S93 Only exceptional cases may occur where small organisms, insects and the like are not taken into account when the induced tension is insufficient or requires excessive amplification to the use of the invention. It is either in electrically shielded areas or in remote areas without electricity. In cases where a stronger electrical switching signal is required than the electric field in the measurement area, it is necessary to create this field by loop, threading the measurement space supplied by the alternating current. translating bullets, pegs, all kinds of teping, tracping and dotting, as well as solving problems such as mazes, numerical squares, various types of reaction agents, etc. SUBJECT OF THE INVENTION Involvement in a circuit-free touch switch by a living organism in psychological experimentation, characterized by that the input (1) is connected via a coupling capacitor (2) on the one hand and the first NPN type transistor (3), which has the collector connected to the output (7) and the emulator to offer the third NPN transistor (5) and the second transistor (4) / PNP type that the emitor has involved in degrees / 7 / to the base and collector of transistor / 5 / which mákolektor connected to output first, second, and _7 through working resistance / 6 / to the positive pole of source mA emitter to the negative pole of the source. 1 sheet of drawings Severografia. n. p. sivod 7. Most