SU1222273A1 - Meter of current action of electric field on biologically active skin points - Google Patents

Description

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The invention relates to medicine, equipment, namely, devices for electrophysical measurements with direct contact with the human body, and can be used in studies in assessing and normalizing the effects of the electric field of industrial frequency on humans and for diagnostic purposes.

The purpose of the invention is to eliminate the change in the functional state of the biologically active points (BAT) of the skin and tighten the electrical safety of the measurement procedure.

The drawing shows a structural diagram of the meter.

The device contains a capacitive sensor 1, the first amplifier 2 detek

a torus 3, a measuring device 4, a second non-inverting amplifier 5, a voltage follower 6, a device body 7, an indifferent electrode 8 and a grounded bus 9.

The output of the capacitive sensor 1, made in the form of two round metal electrodes5 separated by a dielectric, is connected through an amplifier 2 and a detector 3 to a measuring device. 4, which is a microammeter. The lower electrode of sensor 1, superimposed on the human body at point A (t.A.), is connected to the first common point B (t.V) of the electronic circuit and the signal input of a non-inverting amplifier 5 with a high impedance input (MOhm), excluding ™ Bypassing the resistance of the human body.

Amplifier 5 is made on the basis of an op amp, and the signal is a noninverting input. The output of the amplifier is connected to a voltage follower 6 with an output impedance (- "1 Ohm), the output of the voltage follower 6 is connected to the housing of device 7, General point of the non-inverting amplifier 5 and voltage follower 6 through the second common point C (T.C) the meter is connected to an ankle-proof indifferent electrode 8 connected to a grounded bus 9. Grounding of a human body is carried out to ensure constant contact with the ground and stability of the results of measuring current effects on the BAT,

The device when measuring the current impact of the electric field works as follows

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In the initial state, the lower electrode of sensor 1 is installed in the studied BAT (T. A). The amplified output voltage of sensor 1, proportional to the measured current, is detected and fixed by the operator on the measuring device 4. At the same time, the voltage in m. And with respect to ground, is fed to the input of the non-inverting amplifier 5. Its gain factor K is chosen so that the product of the gain factors non-inverting amplifier 5 and repeater 6 voltage equal to one, for example K 1.1. The output voltage of the voltage follower 6 is made up of two components. The first component is caused by the voltage supplied to the input of the follower 6 voltage from the current of sensor A. 1 through a non-inverting amplifier 5. The second component is caused by the current flowing from the housing of the device 7 through the output resistance of the voltage repeater 6. Since this resistance is very small (w 1 Ohm), the second component in amplitude is much less than the useful signal at the repeater input. The currents flowing from the housing of the device 7 are tens of microamperes.

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At a resistance of 1 ohm, such a current will create a voltage drop equal to ten micro volts. The potential in vol. A is tens of millivolts. Therefore, the voltage supplied from the output of the repeater 6 on the case of the device 7 is equal to the voltage in t "A". Because these voltages are equal, there is no charge flow between the lower electrode of sensor 1 and the case of device 7. Only the very small electrode flows from the sensor 1. the current induced on the upper electrode, measured in tens of nanoamperes. Thereby, an exception is made to the change in the functional state of the BAT and the increase in the electrical safety of the current measurement procedure, since its irritating effect on a point at such an amplitude is negligible. Since the lower electrode of the sensor 1 and the body of the device 7 are equipotential, the distortion of the elegance structure is reduced. the floor in the sensor installation area, thereby increasing the measurement accuracy.

Claims (1)

ELECTRIC FIELD CURRENT INFLUENCE METER ON BIOLOGICALLY ACTIVE SKIN POINTS, containing a capacitive sensor, the first electrode of which is connected through the first amplifier and detector connected in series to the measuring device, the second is connected to the first common point of the meter, as well as an indifferent ground electrode connected to the ground bus connected to characterized in that, in order to exclude changes in the functional state of biologically active points of the skin and increase the electrical safety of the measurement procedure, between the first boiling point and the measuring housing includes successively connected the second non-inverting amplifier and a voltage follower connected to the second common point meter and grounded bus. SU. „, 1222273