RU57606U1 - ELECTRON NEUROSTIMULATOR (OPTIONS) - Google Patents

Abstract

The utility model relates to medicine and can be used in cosmetology and physiotherapy. The technical result from the use of an electrical neurostimulator declared as a useful model is an increase in the efficiency of electrical stimulation by providing the possibility of choosing a mode of electrical stimulation close to optimal and a reduction in power consumption due to the use of low-power elements for each functional unit. The specified technical result in the first embodiment is achieved by the fact that in the electrical neurostimulator containing a power supply unit, a microcomputer, an indication unit connected to the first port of the microcomputer, a touch control unit connected to the second port of the microcomputer, and an active and passive electrodes, a flash drive is additionally included, connected to the microcomputer, and a two-section inductor in which the sections are connected according to, the connection point of the sections is connected to the first bus of the power supply unit and the passive electrode, the second terminal of the section with m a small number of turns through an electronic key, the control input of which is connected to the output of the microcomputer, is connected to the housing bus of the power supply unit, the second output of the section with a large number of turns is connected to the active electrode and through a comparator with an analog input of the microcomputer, and the display unit is made in the form of an electroluminescent display on organic light emitting semiconductors. The specified technical result in the second embodiment is achieved by the fact that the electrical neurostimulator containing a power supply unit, a microcomputer, an indication unit connected to the first port of the microcomputer, a touch control unit connected to the second port of the microcomputer, and an active and passive electrodes, further comprises a flash drive, connected to the microcomputer, a switching element, the first contact of which is connected to the negative bus of the power source, and the second contact is to the housing bus, microelectronic relay, two-section induction coil the axis in which the sections are connected according to, the connection point of the sections is connected to the positive bus of the power supply unit and to the passive electrode, the second output of the section with fewer turns through an electronic key, the control input of which is connected to the first output of the microcomputer, is connected to the case bus, the second output of the section with a lot of turns connected

through a comparator with an analog input of the microcomputer and through a microelectronic relay, the control input of which is connected to the second output of the microcomputer, with the active electrode, and a matching cascade, the first input of which is connected to the active electrode, the second input to the second output of the section of the inductor with a large number of turns and the output is with the control input of the switching element, and the display unit is made in the form of an electroluminescent display on organic light-emitting semiconductors. 2 n.p. + 4 z.p. Wed-ly m., 2 ill.

Description

The utility model relates to medicine and can be used in cosmetology and physiotherapy.

Known electrical stimulator containing a pulse generator, modulator, amplifier, indicator, electrodes, period generator, envelope shaper, multiplier, stimulator energy adjuster and differentiating element (see description to copyright certificate No. 1817335, IPC6 A 61 N 1/36, publ. 1995 g.). Depending on the quality of the transient process at the output of the electric stimulator, the signal after the differentiating element controls the duration of the series of pulses set by the period generator, which makes it possible to dose the effect in accordance with the reaction of the body. The disadvantage of such an electric stimulator is its low diagnostic capabilities and the inability to choose the parameters of stimulating pulses, as well as the relatively high energy consumption, since it is implemented on semiconductor devices with a relatively large current consumption.

From the description of the patent of the Russian Federation No. 2068277, IPC6 A 61 N 1/36, A 61 H 39/00, publ. 1996, the bioelectric regulator of psychosomatic homeostasis (electron-neuroadaptive stimulator) is known, containing a rectangular pulse generator, a block for generating stimulating signals, a key amplifier with a transformer output, to which active and passive electrodes are connected, and also a block for setting parameters of stimulating signals connected to the block the formation of stimulating signals and connected to the active electrode in series connected half-wave straighten l, the duration of the measurement unit the first half wave of forced oscillations, and the display and control unit. The disadvantage of this electron-adaptive stimulator is the relatively high energy consumption, since all the blocks are implemented on the same type of microcircuit with a relatively high power consumption.

The same disadvantage is the device for electrical stimulation, known from the description of the patent of the Russian Federation No. 2266762, IPC A 61 N 1/36, publ. 2005.12.27. This device contains a generator connected to a pulse modulator in duration, a stimulus energy adjuster connected to a second input of a modulator, a pulse power amplifier connected to an output of a pulse modulator in duration, an indicator connected to a first output of a power amplifier, electrodes connected to a second output of the amplifier pulse power and input of the differentiating element, pulse shaper in duration, memory element, timer, adder. The output of the differentiating element is connected to the input of the pulse shaper in duration. The output of the driver is connected to the input of the memory element and to one of

inputs of the adder, to the other input of which the output of the memory element is connected. The adder output is connected to a timer. The timer output is connected to the indicator.

The closest in technical essence to the purpose and number of matching essential features to the claimed electrical neurostimulator is an electrotherapy device protected by the patent of the Russian Federation for utility model No. 45277, IPC A 61 N 1/30, publ. 2005. This device contains a power supply unit, an exposure parameter control unit, an exposure parameter control unit, a working and reference electrodes connected respectively to the plus and minus terminals of the power unit, a programmable exposure parameter mode unit, an exposure parameter mode input means and an indication unit. The exposure parameter control unit and the exposure parameter mode programming unit are designed as a microcontroller. The input means of the exposure parameters mode is made in the form of a touch keyboard.

The matching features of the claimed electroneurostimulator and electrotherapy device according to the patent of the Russian Federation for utility model No. 45277 are:

- the presence of a power supply;

- the presence of a microcomputer (in the prototype, a microcontroller);

- the presence of active and passive electrodes (in the prototype - working and reference electrodes);

- the presence of a touch control unit (in the prototype - touch keyboard);

- the presence of an indication unit.

The disadvantage of the prototype is the lack of effectiveness of electrotherapy, since the effect is carried out without taking into account the reaction of the body to the effect, and relatively large power consumption, since the display unit and the microcontroller are implemented on the same element base.

The technical result from the use of an electrical neurostimulator declared as a useful model is an increase in the efficiency of electrical stimulation by providing the possibility of choosing a mode of electrical stimulation close to optimal and a reduction in power consumption due to the use of low-power elements for each functional unit.

The specified technical result in the first embodiment is achieved by the fact that in the electrical neurostimulator containing a power supply unit, a microcomputer, an indication unit connected to the first port of the microcomputer, a touch control unit connected to the second port of the microcomputer, and an active and passive electrodes, a flash drive is additionally included, connected to the microcomputer, and a two-section inductor in which the sections are connected according to, the connection point of the sections is connected to the first bus of the power supply unit and the passive electrode, the second terminal of the section with m nshim number

turns through an electronic key, the control input of which is connected to the output of the microcomputer, connected to the housing bus of the power supply unit, the second output of the section with a large number of turns connected to the active electrode and through a comparator with an analog input of the microcomputer, and the display unit is made in the form of an electroluminescent display on organic light emitting semiconductors. The power supply unit contains a galvanic source, the first step-up parametric voltage regulator, converting the voltage of the galvanic power source to a constant voltage to power the display unit, the second step-up parametric voltage regulator, converting the voltage of the galvanic power source to a constant voltage supplied to the connection point of the sections of the two-section inductor and passive electrode, and a step-down parametric voltage regulator that converts the second parametric voltage regulator in constant voltage for supplying a microcomputer, with one input terminal of each parametric voltage stabilizer connected to a common chassis bus, the second input terminals of the first and second step-up parametric voltage stabilizers connected to the plus pole of the galvanic power source, the negative pole of which is connected to with the bus via the power button, the second input terminal of the step-down parametric stabilizer is voltage it is connected to the output of the second step-up parametric voltage regulator, the output of the first step-up parametric voltage stabilizer is connected to the power supply bus of the display unit, the output of the second step-up parametric voltage stabilizer is connected to the connection point of the inductance coil sections and the passive electrode, the output of the step-down parametric voltage stabilizer is connected to the power supply bus of the microcomputer . A two-section inductor has a Q factor of at least 100, an inductance of 0.1 ... 2.0 H and a ratio of the number of turns of a section with a smaller number of turns to the total number of turns equal to 0.05 ... 0.3.

The specified technical result in the second embodiment is achieved by the fact that the electrical neurostimulator containing a power supply unit, a microcomputer, an indication unit connected to the first port of the microcomputer, a touch control unit connected to the second port of the microcomputer, and an active and passive electrodes, further comprises a flash drive, connected to the microcomputer, a switching element, the first contact of which is connected to the negative bus of the power source, and the second contact is to the housing bus, microelectronic relay, two-section induction coil the axis in which the sections are connected according to, the connection point of the sections is connected to the positive bus of the power supply unit and to the passive electrode, the second output of the section with fewer turns through an electronic key, the control input of which is connected to the first output of the microcomputer, is connected to the case bus, the second output of the section with a large number of turns connected through a comparator to the analog input of a microcomputer and through a microelectronic

a relay, the control input of which is connected to the second output of the microcomputer, with the active electrode, and a matching stage, the first input of which is connected to the active electrode, the second input with the second output of the inductance coil section with a large number of turns, and the output with the control input of the switching element and the display unit is made in the form of an electroluminescent display on organic light-emitting semiconductors. The power supply unit contains a galvanic source, the first step-up parametric voltage regulator that converts the voltage of the galvanic power source to direct voltage to power the display unit, the second step-up parametric voltage regulator, converts the voltage of the galvanic power source to constant voltage for supplying sections of the two-section inductor to the connection point and passive electrode, and step-down parametric voltage regulator, converting the second parametric voltage stabilizer is connected to a constant voltage for powering the microcomputer, while one input terminal of each parametric voltage stabilizer is connected to a common chassis bus, the second input terminals of the first and second raising parametric voltage stabilizers are connected to the plus pole of the galvanic power supply, the second input terminal of the lowering parametric voltage stabilizer is connected to the output of the second step-up parametric voltage stabilizer I, the output of the first step-up parametric voltage stabilizer is connected to the power supply bus of the display unit, the output of the second step-up parametric voltage stabilizer is connected to the connection point of the inductance coil sections and the passive electrode, the output of the step-down parametric voltage stabilizer is connected to the power supply bus of the microcomputer, the negative pole of the galvanic source is connected to the case bus through the switching element. A two-section inductor has a Q factor of at least 100, an inductance of 0.1 ... 2.0 H and a ratio of the number of turns of a section with a smaller number of turns to the total number of turns equal to 0.05 ... 0.3.

The utility model is illustrated by drawings. Figure 1 shows a block diagram of a first embodiment of the claimed electrical neurostimulator, figure 2 is a block diagram of a second embodiment of the claimed electrical neurostimulator.

In figure 1, 2 numbers indicate:

1 - power supply;

2 - galvanic source;

3 - the first step-up parametric voltage stabilizer;

4 - step-down parametric voltage stabilizer;

5 - second step-up parametric voltage stabilizer;

6 - microcomputer;

7 - display unit, made in the form of an electroluminescent display on organic light-emitting semiconductors;

8 - touch control unit;

9 - two-section inductor;

10 - electronic key;

11 - active electrode;

12 - passive electrode;

13 - flash drive;

14 - a comparator;

15 - microelectronic relay;

16 - matching cascade;

17 - switching element;

On - power button.

The claimed electrical neurostimulator according to the first embodiment (Fig. 1) contains a power supply unit 1, a microcomputer 6, an indication unit 7 made in the form of an electroluminescent display on organic light-emitting semiconductors and connected to the first port of the microcomputer 6, a touch control unit 8 connected to the second port of the microcomputer 6, active 11 and passive 12 electrodes, a flash drive 13 connected to the microcomputer 6, and a two-section inductor 9, in which the connection point of the sections is connected to the first bus of the power supply 1 and passive electro ohm 12, the second output of the section with fewer turns through an electronic switch 10, the signal input of which is connected to the output of the microcomputer 6, is connected to the housing bus of the power supply unit 1, the second output of the section with a large number of turns is connected to the active electrode 11 and through the comparator 14 with an analog the input of the microcomputer 6. Using the block 8 of the touch control, the operating modes of the electroneurostimulator are selected, the flash drive 13 is designed to store reference data that allows you to quickly and accurately determine the necessary exposure zones I'm on the diagnostic features, storage options, and the results of previous sessions of electrostimulation, software updates and operating system on the Internet.

The power supply unit 1 contains a galvanic power supply 2, the first step-up parametric voltage regulator 3, converts the voltage of the galvanic source 2 to a constant voltage to power the unit 7, the second step-up parametric voltage regulator 5, converts the voltage of a galvanic source 2 to a constant voltage to power the electronic switch 10, and a step-down parametric voltage stabilizer 4, converting the voltage of the second step-up parametric voltage stabilizer 5 in tinuous supply voltage for the microcomputer 6, wherein the one input terminal of each parametric voltage stabilizer connected to the common rail body, the second input

the terminals of the first 3 and second 5 step-up parametric voltage stabilizers are connected to the plus pole of a galvanic source 2, the negative pole of which is connected to the chassis bus via the "On" power button, the second input terminal of the step-down parametric voltage regulator 4 is connected to the output of the second step-up parametric voltage regulator 5, the output of the first step-up parametric voltage regulator 3 is connected to the power bus of block 7, the output of the second step-up parametric ohm voltage stabilizer 5 - with the connection point of the sections of the inductor 9 and the passive electrode 12, the output of the lowering parametric voltage regulator 4 - with the power bus of the microcomputer 6. Two-section inductor 9 has a quality factor of at least 100, inductance 0.1 ... 2.0 GN and the ratio of the number of turns of the section with a smaller number of turns to the total number of turns equal to 0.05 ... 0.3.

The specified technical result in the second embodiment is achieved by the fact that in the electrical neurostimulator containing the power supply unit 1, the microcomputer 6, the display unit 7, made in the form of an electroluminescent display on organic light-emitting semiconductors and connected to the first port of the microcomputer 6, the touch control unit 8 connected to the second the port of microcomputer 6, and the active 11 and passive 12 electrodes, further comprises a flash drive 13 connected to the microcomputer 6, a switching element 17, the first contact of which is connected to the negative power supply bus 1, and the second contact - with the housing bus, microelectronic relay 15, two-section inductor 9, in which the sections are connected according to, the connection point of the sections is connected to the positive bus of the power supply 1 and to the passive electrode 12, the second section output with fewer turns through an electronic key 10, the signal input of which is connected to the first output of the microcomputer 6, is connected to the chassis bus, the second output of the section with a large number of turns is connected through the comparator 14 to the first input of the microcomputer 6 and through the microel a ktron relay 15, the control input of which is connected to the second output of the microcomputer 6, with the active electrode 11, and a matching stage 16, the first input of which is connected to the active electrode 11, the second input - with the second output of the section of the inductor 9 with a large number of turns, and the output is with the control input of the switching element 17. The power supply 1 contains a galvanic power source 2, the first increasing parametric voltage stabilizer 3, converting the voltage of the galvanic source 2 into a constant voltage for power unit 7, a second step-up parametric voltage regulator 5, converting the voltage of a galvanic source 2 to a constant voltage to power an electronic switch 10, and step-down parametric voltage regulator 4, converting a voltage of a second parametric voltage 5 to a constant voltage to power a microcomputer 6 and, at the same time, one input the terminal of each parametric voltage regulator is connected to a common

case bus, the second input terminals of the first 3 and second 5 step-up parametric voltage stabilizers are connected to the plus pole of the galvanic source 2, the second input terminal of the step-down parametric voltage regulator 4 is connected to the output of the second step-up parametric voltage regulator 5, the input of the first step-up parametric voltage stabilizer 3 is connected to the power bus of block 7, the second step-up parametric voltage stabilizer 5 - with the connection point of the coil sections inductance 9 and a passive electrode 12, the output of the step-down parametric voltage stabilizer 4 - with the power bus of the microcomputer 6, the negative pole of the galvanic source 2 is connected to the housing bus through the switching element 17. The two-section inductor 9 has a quality factor of at least 100, inductance 0.1 .. .2.0 GN and the ratio of the number of turns of a section with a smaller number of turns to the total number of turns equal to 0.05 ... 0.3.

The declared variants of the electron-neurostimulator are the main means of modern technology of highly effective non-drug restoration of human health, called “SCENAR” - self-controlled electro-neuroadaptive regulation. A characteristic feature of the operation of the electroneurostimulator is that the stimulating effect is carried out by electrical vibrations that occur in the resonant circuit formed by the inductance of the section with a large number of turns of a two-section inductor 9 and the capacitive component of the interelectrode tissue impedance between the active electrode 11 and the passive electrode 12, while the stimulus energy is set the duration of the control signal, unlocking the electronic key 10 - the time of saturation of the electromagnetic energy rgii inductor 9. The active component of the impedance of the interelectrode tissue affects the quality factor of the circuit and affects the rate of attenuation of oscillations in the resonant circuit. The capacitive component of the impedance that changes during electrical stimulation affects the frequency of these oscillations. The rate of change of the capacitive component of the impedance reflects the body's response to the electrostimulating effect. The rate of change of the capacitive component is calculated in the microcomputer 6 by the change in the duration of the first half-wave of oscillations of the electro-stimulating signal at the output of the comparator 14. The zero rate of change in impedance indicates the absence of an organism reaction and the necessity of termination of electrical stimulation. The devices are designed to prevent diseases and increase the reserve capacity of the body. Provide resistance to diseases and harmful environmental influences. The impact is carried out by short-pulse signals at the contact of the electrodes 11, 12 with the skin. The parameters of the exposure signal and the duration of the procedure are set automatically due to the action of the biological feedback of the body (the duration of the first half-wave of the signal from the output of the comparator

fourteen). Operation is controlled by a microcomputer 6. Built-in online help with explanatory drawings allows you to quickly and accurately determine the necessary zones for exposure. The operating system allows you to simultaneously carry out the treatment procedure and view online help. It is possible to update online help via the Internet. The microcomputer 6 software allows you to automatically control stimulation during prolonged exposure and to implement four exposure modes: one general emergency medical treatment regimen and three cosmetic regimes for affecting the face, middle body and leg area. The timer for the impact on the zone, the timer for the entire procedure, and the timer for the device’s resource are also implemented in software. The touch control unit 8 provides control of the operation of the electrical neurostimulator through the menu displayed on the display of the display unit 7. The menu includes general and typical observations and explanations that help novice users understand the designations of the display of block 7 and learn how to work with it, conduct a preliminary analysis of the treated area, determine the exposure time, select the optimal energy level of the acting signal, control the duration of cosmetic procedures, turn off the sound, set the menu language, etc.

The claimed electrical neurostimulator (first option) works as follows. With the inclusion of the “On” button, power voltages are supplied from power supply 1:

+10 V per display unit 7,

+3 V on the microcomputer and touch control unit 8,

+5 V to the electronic switch 10 through the inductor 9.

The nerve stimulator begins to work initially in an emergency mode for 1-2 minutes, and then automatically switches to the exposure mode that is most suitable for the body at the moment. This is very convenient when urgent care is required - for pain, bleeding, edema, shock conditions, heart attacks, etc. Then the mode can be changed. On command from the microcomputer 6 under the control of the program stored in the flash drive 13, a menu is displayed on the display of the unit 7. Using the menu 8 operands, the patient or doctor, using the menu operands, finds the zone for exposure according to the express analysis, determines the priorities of the areas of the exposure zone, among the areas with the highest priority, finds the area with the highest degree of activity, selects the exposure mode and starts the electrostimulation procedure. The display unit 7 in graphical and digital form displays the main modes of operation, energy exposure, the state of the exposure zone, its activity during the procedure and the degree of change, the exact progress of the dose, the exposure time for a separate zone and the total time of the procedure, as well as the condition of the batteries nutrition. This allows you to evaluate the correct choice of the exposure zone, the full dose, the inclusion of dynamic adaptation and the reliability of contact

with skin. The electrical stimulation of the selected area of the exposure zone stops automatically as soon as the body ceases to respond to the impact and at the output of the comparator 14, the duration of the first half-wave ceases to change. Further, the patient or doctor moves the electrodes to another part of the exposure zone and performs its electrical stimulation.

The operation of the second variant of the electroneurostimulator differs from the previously described one in that the power of the electrostimulator turns on automatically when the electrodes contact the patient’s skin for 4 ... 5 seconds and automatically turns off after 1 minute in the absence of such a contact. This is ensured by the fact that the negative terminal of the galvanic source 2 is connected to the housing through a controlled electronic switch 17, which is activated by the voltage at the output of the matching stage 16. The voltage at the output of the matching stage appears 4 ... 5 seconds after the electrodes 11, 12 are installed on the skin the cover of the patient due to skin potential. After the electronic controlled key 17 is activated, the supply voltage is supplied: +10 V to the block 7, +3 V to the microcomputer 6 and the block 8 and +5 V to the electronic key 10 through the inductor 9. The microelectronic relay 15 and the active one are activated by the control signal from the microcomputer 6 the electrode 11 is connected to the second contact of the section with a large number of turns of the inductor 9. Further, the operation of the second embodiment of the neuro-stimulator is no different from the operation of the first embodiment. In the absence of contact of the electrodes 11, 12 with the skin of the patient, the oscillation frequency at the input of the comparator 14 will be determined by its input resistance, which is two orders of magnitude greater than the impedance of the interelectrode tissue. On this basis, the control signal is removed from the microelectronic relay 15 in the microcomputer 6, the electronic switch 10 is locked, after 1 minute the potential at the output of the matching stage 16 disappears and the negative terminal of the galvanic power supply 2 is disconnected from the chassis bus. As a result, the blocks and nodes of the nerve stimulator are disconnected from the power supply.

The main blocks and nodes in the microcomputer 6 program for controlling an electron-neurostimulator, displayed on the display of block 7.

Biopassport block

- allows, at the first touch, initially automatically adjusting the device individually to the patient undergoing the procedure. In addition, this is a great opportunity to get a high impact effect with self-help. Such individual tuning has advanced SCENAR devices to a new level of efficiency in general.

Dynamic Adaptation Block

- allows you to control stimulation during prolonged exposure, adjusting the impact and the pause between the effects of feedback. It turns on automatically.

Microbioresonance unit

- in the process of exposure reveals micro-vibrations and excites them due to resonance phenomena. It gives a unique opportunity to affect the whole body through any, even very small, area on the skin, entering into resonance with the body systems.

Radio sensor unit

- the whole body is used as a large liquid antenna that emits interference from exposure. A miniature interference receiver located inside the device on the chip chip itself receives a signal from the patient. Then, the rate of change in the power of the signal emitted by a person is calculated. This is necessary for safety exposure, as well as for assessing global changes in the patient's condition. If the rate of change of signal power increases sharply, which indicates significant changes in the body, the effect is automatically reduced. This does not allow the resonant system of the apparatus to prohibitively increase the oscillations of the body systems. Professional block

- specializes in setting up the device for professional use. During the procedures, the statistical information of the user's “work style” is recorded in the flash memory of the device, remembering which zones are most often affected. There are 4 main areas of application of the device: peripheral zone; the area of the abdomen and chest in front; back area and face area. A separate setting is the use of the device to restore the health of children from 0 to 1-2 years. Based on this information, the internal functions of the device are adjusted. The longer you use it, the more effective the impact. Depth stabilizer

- automatically ensures optimal involvement of body systems upon exposure. Age Corrector

- Corrects the initial setting of the device according to the "age qualification" - integrated high-speed response characteristics to the impact. Automatically provides dose adjustment in accordance with the age of the patient - a large dose for adults, and a lower dose for children. First Aid Module

- forms an additional fast-impulse packet of pulses for exposure in the area with an expanded capillary network. It allows you to speed up the removal of puffiness and increase the rate of tissue regeneration. The module is activated simultaneously with

turning on the device, when the electrodes come into contact with the skin, it turns off automatically. Aging corrector

- monitors and corrects the mismatch of control circuits and the effects of the apparatus associated with the aging of radioelements. “Eternal youth” for the device, allowing to maintain its effectiveness in the process of long-term operation. Reliability controller

- provides short-term protection of the device from possible overloads, short circuits of electrodes, improper installation of batteries, etc.

Improving the efficiency of electrical stimulation is achieved by the fact that the presence of a microcomputer 6, flash drive 13 and block 7, made with a display on organic light-emitting semiconductors using TFT OLED technology, allows the consumer to specify diagnostic signs and choose a mode of electrical stimulation close to optimal, to quickly and objectively monitor the treatment results, supplement reference data via the Internet.

The reduction in power consumption is achieved due to the fact that microcomputers 6, blocks 7, 8, elements 13, 14, 15, 16 and 17 are implemented on a microcurrent element base; the power supply unit 1 has separate voltage converters for supplying microcurrent blocks and units and for supplying an electric stimulating signal generating unit (electronic key 10 with inductor 9).

Claims (6)

1. An electrical neurostimulator comprising a power supply unit, a microcomputer, an indication unit connected to the first port of the microcomputer, a touch control unit connected to the second port of the microcomputer, and an active and passive electrodes, characterized in that it further comprises a flash drive connected to the microcomputer, and a two-section inductor in which the sections are connected according to, the connection point of the sections is connected to the first bus of the power supply unit and the passive electrode, the second output of the section with fewer turns through the key force a spruce whose signal input is connected to the output of the microcomputer is connected to the housing bus of the power supply unit, the second output of the section with a large number of turns is connected to the active electrode and through a comparator with an analog input of the microcomputer, and the display unit in it is made in the form of an electroluminescent display on organic light-emitting semiconductors . 2. The electro-stimulator according to claim 1, characterized in that the power supply unit contains a galvanic source, a first step-up parametric voltage regulator that converts the voltage of the galvanic power source to direct voltage to power the display unit, a second step-up parametric voltage regulator, which converts the voltage of the galvanic power source to constant voltage to power the key amplifier, and a step-down parametric voltage regulator that converts voltage parametric voltage to direct voltage for powering the microcomputer, with one input terminal of each parametric voltage regulator connected to a common chassis bus, the second input terminals of the first and second step-up parametric voltage stabilizers connected to the plus pole of the galvanic power source, the second input terminal of the step-down parametric voltage regulator connected to the output of the second step-up parametric voltage regulator, the input of the first step-up about a parametric voltage stabilizer is connected to the power bus of the display unit, the second increasing parametric voltage stabilizer is connected to the connection point of the inductance coil sections and a passive electrode, the output of the lowering parametric voltage stabilizer is connected to the microcomputer power bus. 3. The electroneurostimulator according to claim 1, characterized in that the two-section inductor has a Q factor of at least 100, an inductance of 0.1 ... 2.0 H and the ratio of the number of turns of a section with a smaller number of turns to the total number of turns equal to 0.05. ..0.3. 4. An electrical neurostimulator comprising a power supply unit, a microcomputer, an indication unit connected to the first port of the microcomputer, a touch control unit connected to the second port of the microcomputer, and an active and passive electrodes, characterized in that it further comprises a flash drive connected to the microcomputer, a controlled electronic key, the output of which is connected to the negative bus of the power source, and the switched element is connected to the housing bus, a microelectronic relay, a two-section inductor, in which the sections are connected according to the section connection point is connected to the positive bus of the power supply unit and to the passive electrode, the second output of the section with fewer turns through a key amplifier, the signal input of which is connected to the first output of the microcomputer, is connected to the chassis bus, the second output of the section with more turns is connected via a comparator to the analog input of the microcomputer and through the microelectronic relay, the control input of which is connected to the second output of the microcomputer, with the active electrode, and a matching cascade, the first input of which is connected to the active e electrode, the second input - with the second output section of the inductor with a large number of turns, and the output - with the control input of a controlled electronic key, and the display unit in it is made in the form of an electroluminescent display on organic light-emitting semiconductors. 5. The electro-stimulator according to claim 4, characterized in that the power supply unit contains a galvanic source, a first step-up parametric voltage regulator that converts the voltage of the galvanic power source to direct voltage to power the display unit, a second step-up parametric voltage regulator, which converts the voltage of the galvanic power source to constant voltage to power the key amplifier, and a step-down parametric voltage regulator that converts voltage parametric voltage to direct voltage for powering the microcomputer, with one input terminal of each parametric voltage regulator connected to a common chassis bus, the second input terminals of the first and second step-up parametric voltage stabilizers connected to the plus pole of the galvanic power source, the second input terminal of the step-down parametric voltage regulator connected to the output of the second step-up parametric voltage regulator, the input of the first step-up about a parametric voltage regulator is connected to the power supply bus of the display unit, the second step-up parametric voltage stabilizer is connected to the connection point of the inductance coil sections and a passive electrode, the output of the parametric voltage regulator is connected to the microcomputer power bus, the negative pole of the galvanic source is connected to the chassis bus via a controlled electronic key . 6. The electroneurostimulator according to claim 4, characterized in that the two-section inductor has a Q factor of at least 100, an inductance of 0.1 ... 2.0 H and the ratio of the number of turns of a section with a smaller number of turns to the total number of turns equal to 0.05. ..0.3.