RU2033211C1 - Device for stimulation and/or correction of functional state of biological object - Google Patents

Abstract

FIELD: devices for electromagnetic effect applied to biological objects. SUBSTANCE: modulator is controlled by setting initial frequency in each cycle and the rate of variations of said frequency. A signal is sent from the modulator to SHF generator and further, via antenna section, to a radiator. Radiated SHF electromagnetic field of nonthermal intensity acts intensively on the biological object. EFFECT: improved design. 9 cl, 4 dwg

Description

 The invention relates to means of electromagnetic effects on biological objects or their elements, comprising, for example, plants, seeds, cells of birds, mammals, etc.

 Electromagnetic fields of low intensity, the so-called non-thermal intensity, are widely used in practice. The development of ultra-high frequency electronics and microelectronics allows the manufacture of devices of various functional orientations. This class of devices combines the fact that the range of electromagnetic effects includes frequencies from hundreds of megahertz to tens of gigahertz. The intensity of the field effect is such that even as a result of prolonged exposure to a cell or living organism, there is no thermal effect or any change in the body's cells associated with the thermal effect of an external electromagnetic field, in this case, changes in the functional state of the object of exposure occur as a result of exposure at the information level, the consequence of which is a change in membrane potentials, which is associated with intracellular metabolism. It is important to choose exactly the type of field effect that will lead to the desired result, since for the same object of influence in different initial states, the same external effect can give the opposite result, and in some cases there can be no stimulation speech. That is why the task is to create a device for stimulating and / or correcting the functional state of a biological object for all cases of its initial (before stimulation) state, i.e. devices, the use of which is effective for a wide class of bioobjects, as well as for almost any initial state of these bioobjects. This will substantially exclude any restructuring of the output parameters of the device, making it universal and suitable for use with a wide range of diagnoses.

 Currently, such devices include a microwave generator, which is connected to the emitter via an antenna path. However, such devices are ineffective, since the parameters of the microwave generator are basically stable, which allows stimulation or correction in a narrow class of bioobjects and diagnoses.

 The closest devices to the claimed are devices for stimulation and / or correction of the functional state of a biological object, containing sequentially connected modulator, microwave generator, antenna path and emitter. The modulator of the known devices allows for exposure in a certain frequency band, because this type of exposure is more effective than exposure in a particular band or series of bands.

 The disadvantages of these devices are low efficiency, the need for a fairly complex setup for this type of object of influence, taking into account the initial state of this object, a small number of diagnoses in which there is a stimulation or correction of the functional state of the object of influence.

 A device for stimulating and / or correcting the functional state of a biological object is adopted as a prototype of the claimed device, comprising a modulator, a microwave generator, an antenna path, an emitter, a control voltage generating unit, connected in series. The microwave generator includes a controlled reactive element and a power amplifier.

 This device is more effective than the mentioned devices, it affects the object, however, the modulation parameters that determine the degree of impact are not optimal enough and are set directly from the control panel, which complicates the operation of the device.

 The purpose of the invention is to increase the efficiency of stimulation and / or correction of the functional state of a biological object due to a more selective effect on it, i.e. adaptation of the field effect to a specific object and automatic regulation of the modulation parameters of the stimulating effect.

 This goal is achieved by the fact that the device is equipped with a block for generating pulsed quasi-random control signals, the first output of which is connected to the installation input of the modulator. The control input of the latter is communicated with the first output of the control voltage generating unit, the second, third and fourth outputs of the pulsed quasi random control signal generating unit, the first input of which is connected with the output of the clock generator, are connected to the installation, counting and operation mode selection input. The device is equipped with a timer connected to the corresponding input of the microwave generator, as well as an additional control voltage generating unit, the output of which is connected to the corresponding input of the microwave generator. It is equipped with a sensor and a radiation indicator. The second input of the pulsed quasi random control signal generation unit is connected to the second output of the control voltage generation unit. The latter is made in the form of series-connected reverse counter and digital-to-analog converter, the output of which is the first output of the said block. The “transfer” output of the counter is connected with the “resolution” input of it and is the second output of this block, the installation, counting and mode selection input of which correspond to the similar inputs of the reverse counter.

 The block for generating pulsed quasi-random control signals is made in the form of a pseudo-random sequence generator, a random access memory register and a tunable rectangular pulse generator, the output of which is the third output of the forming block, the input of the pseudo-random sequence generator is the input of this block, and the output is the output of the block and connected to the register input random access memory, the input "resolution" of which is the second input of the aforementioned block, and the corresponding counting outputs are the first output of the said block, others are connected to the installation input of the tunable rectangular pulse generator, the input of which is the fourth output of the block generating pulse quasi-random control signals.

 In another case, the block generating pulsed quasi-random control signals is made in the form of two pseudorandom sequence generators, a random access memory register and a tunable rectangular pulse generator, the output of which is the third output of the forming block. The input of each of the pseudorandom sequence generators is the first input of this block and is connected to the output of the clock generator. The output of the first pseudo-random sequence generator is connected to the input of the random access memory register. The output of the second is the second output of the said block and is connected with the installation input of the tunable rectangular pulse generator, the output of which is the fourth output of this block. The corresponding outputs of the random access memory register (bit outputs) are the first and third outputs of the said block, and the input is “resolution” by the second input of this block. The antenna path is made in the form of a frequency-selective path. Compensation of losses in the circuit is carried out due to external positive feedback and as a result of internal processes in the power amplifier.

 A search conducted in patent and scientific and technical literature showed that the claimed combination is unknown, i.e. the invention meets the criterion of "novelty."

 Since there is a need for this type of devices and they are based on known elements and assemblies, the claimed invention meets the criterion of "industrial applicability".

 Since the result of using this device exceeds all known effects from the use of these devices, the invention meets the criterion of "inventive step". This result was obtained after numerous experiments and the use of new physiological and biological effects from exposure to electromagnetic fields of non-thermal intensity in the design of this device, as evidenced by the originality of the circuit design of the device.

 Figure 1 presents a block diagram of a device; figure 2 and 3 of the execution scheme of the block forming pulsed quasi-random control signals; figure 4 is a special case of the device.

 A device for stimulating and / or correcting the functional state of a biological object comprises a clock 1, a block 2 for generating pulsed quasi-random control pulsed signals, a modulator 3, a microwave generator 4, including a controlled reactive element 5 and a power amplifier 6, which are connected by a feedback loop. As element 5, a varicap or transistor junction, etc. can be used. The output of the microwave generator 4 through the antenna path 7, which can be frequency-selective (in the form of a set of corresponding circuits) is communicated with the emitter or emitters 8. In this case, the path 7 may further include a directional coupler (not shown). The number of outputs which corresponds to the number of emitters 8. To monitor the operation of the device is equipped with a radiation sensor 9 and a radiation indicator 10, which initiate the on state of the device. The control voltage generating unit 11 includes a reversible counter 12 and a digital-to-analog converter (DAC) 13. The counter 12 is advantageously designed as a binary counter. The modulator 3 in a particular case can be made in the form of a tunable generator of triangular pulses, the installation input of which is the first input and connected to the output of block 2. The control input of the modulator 3 is connected to the output of block 11, namely, the DAC 13. Block 2 in various embodiments ( 2 or 3) has one pseudo-random sequence generator 14 or two such generators 14 and 15, a random access memory (RAM) register, and a tunable rectangular pulse generator 17.

 In some cases, the device is equipped with a timer 18 and an additional control voltage generating unit 19, the outputs of which are connected to the corresponding inputs of the microwave generator 4.

 The generator 1, blocks 2 and 11, the modulator 3 form an automatic voltage generator triangular shape. The output of the clock 1 is connected to the first input of block 2, i.e. to the inputs of the generators 14 or 14 and 15, the outputs of which or in the form of a data bus are connected to the corresponding inputs of the RAM register 16, the information outputs of the RAM 16 (part of the bits) are connected to the information inputs of the tunable rectangular pulse generator 17, tunable 3 triangular pulse generator (modulator ) and to the input of the change in the direction of counting of the counter 12, which is the third output of block 2, this can howl the output of RAM 16 "record availability" or "transfer", or the output of one of the lower (lower) bits. The output of the generator 17 is connected with the counting input of the counter 12 and is the fourth output of block 2, the output of the transfer signal of the counter 12 can be connected to the inputs for recording information of the counter 12 and the RAM register 16, this input is the second input of the block 2. The information outputs of the counter 12 are connected to the input system of the DAC 13, the output of which is the first output of block 11 and is connected to the control input of the modulator 3, the installation input of which, as already mentioned, is connected to the group of information (bit) outputs of the RAM 16 register, which are are first output unit 2, the second output of which is the output from the generator 14 or 15 (this installation unit 2 and the output information from it allows to establish a random number counter 12 for installation input). The output of the modulator (generator) 3 is connected with a controlled reactive element 5 and, according to the law, with a random initial phase and random coefficients, controls the frequency of the microwave generator 4.

 The device operates as follows.

 A pulse from a clock 1 synchronizes the formation of a pseudo-random sequence (or sequences) from a generator 14 (or generators 14 and 15). The outputs from the generator 14 are connected to the input bus of the RAM register 16 and to the installation inputs of the reversible binary counter 12. In the particular case, these inputs of the counter 12 are connected to the output of the generator 15. Discrete tuning of the frequency range of the rectangular pulse generator 17 and the triangular pulse generator (modulator) 3 is carried out depending on the binary codes received from the output bus of the register 16. From the same output bus a signal is sent to the input of the direction control of the count (- or +) of the reverse binary counter 12. Rectangular e pulses of varying frequency generated at the output of the generator 17 are supplied to the counting input of the counter 12. The binary information is recorded in the register 16 and in the counter 12 itself by the signal at the transfer output of the counter 12, although this record can be initiated depending on the signals from the clock generator 1. The binary code from the output of the counter 12 is fed to the input of the DAC 13, in which it is converted into an analog signal, which is fed to the control input for a smooth change of the frequency of the generator 3 triangular pulses (modulator), in each azone and frequency hopping at the output of generator 3 generates a triangular wave of variable frequency.

 The operation of modulator 3 is as follows. At the beginning of the cycle, when a signal appears at the output of the transfer of the counter 12, information is recorded in the form of a random sequence in the register 16 and the counter 12. The counting speed of the counter 12 is determined by the frequency of the generator 17, and the direction of the counting code of the signal at the input (+ or -) of the counter 12. The frequency of the output signal of the generator 3 smoothly changes. When the reverse binary counter 12 is overflowed or zeroed, the cycle ends and, according to the transfer signal from the transfer output from the transfer output of the counter 12 to register 16 and counter 12, a new sequence of random transmissions is recorded. An abrupt change in the frequency of generators 3 and 17, i.e. a new cycle begins. As a result, a triangular voltage of varying frequency is generated at the output of the generator 3, which is used to modulate the oscillations of the microwave generator 4.

 The digital elements used in this device are widely known (Shilo V. L. Popular digital microcircuits. Chelyabinsk: Metallurgy, 1989. The use of integrated circuits in electronic computing. Handbook / Edited by B.N. Fayzulaev, B.V. Tarabrina , M. Radio and communication, 1987; Veniaminov V.N. et al. Microcircuits and their application. M. Radio and communication, 1989).

 Generators of rectangular 17 and triangular 3 pulses are known from the same sources and their tunability can be implemented depending on the parameters of the timing chains connected to them via multiplexer elements depending on the code at the inputs of these generators.

The controlled reactive element 5, power amplifier 6, circuit 7 form a frequency-modulated generator block. It is possible in this case to use a microwave generator. (Vereshchagin E.M. et al. Transistor-varactor generators. Kiev: Technika, 1979; Kolosov MV, Peregonov SA, Microwave generators and amplifiers based on semiconductor devices. M. Sov. Radio, 1974). In this case, radiation from the microwave frequency range from 100 MHz to 10-12 GHz is used, the energy flux density from the antenna path does not exceed 10-15 mW / cm ² , and the exposure time specified by timer 18 does not exceed 10-15 minutes, which is significant less than the level of 100 mW / cm ² when irradiated for an hour, due to GOST 12.1.006-84. Such low-intensity electromagnetic radiation is used, for example, in the treatment of mammalian dermatoses (Electronic Industry, 1991, No. 3, p. 74).

 The effectiveness of the claimed device was tested in animal experiments with direct registration of bioelectric activity in the peripheral and stem formations of the autonomic nervous system. A high tropic effect of electromagnetic radiation generated by the device has been established. So, colds in comparison with the use of known microwave means during stimulation by the claimed device took place with an average period of 20% less. Asthmatic phenomena, which previously had no significant effect on microwave exposure, completely disappeared in 89% of cases, and a fairly rapid significant improvement always occurred. Experiments with plant objects showed that, compared with the known microwave stimulants (V. Makarov, et al. On the effect of microwave irradiation on the growth of fruit and berry crops, Electronic Processing of Materials, 1986, No. 4, p. 61- 63) the claimed device is 10-18% more efficient. Grain processing allowed to increase the impact efficiency by 5-12% compared with the known devices of a similar action. Exposure to birds and eggs also revealed a sustained stimulating effect.

 These application examples show that the claimed stimulatory and corrective effect is clearly expressed and can be used to affect plants, mammals, such as cows, dogs, as well as humans.

Claims (9)

 1. DEVICE FOR STIMULATION AND / OR CORRECTION OF THE FUNCTIONAL STATE OF THE BIOLOGICAL OBJECT, containing sequentially connected modulator, microwave generator, antenna path and emitter, as well as a control voltage generating unit, wherein the microwave generator includes a controlled reactive element and a power amplifier, characterized in that it is equipped with a clock generator and a unit for generating pulsed quasi-random control signals, the first output of which is connected to the installation input odulyatora, and the control input of the latter communicates with the first output generating a control voltage to the mounting, and the counting input of the selection mode which connected the second, third and fourth outputs of the pulse shaping unit quasirandom control signals, the first input of which is connected to the output of the clock generator.  2. The device according to claim 1, characterized in that it is equipped with a timer connected to the corresponding input of the microwave generator.  3. The device according to claim 1, characterized in that it is equipped with an additional control voltage generating unit, the output of which is connected to the corresponding input of the microwave generator.  4. The device according to p. 1, characterized in that it is equipped with a sensor and a radiation indicator.  5. The device according to claim 1, characterized in that the second input of the pulse generating quasi random control signal generating unit is connected to the second output of the control voltage generating unit.  6. The device according to claims 1 and 5, characterized in that the control voltage generating unit is made in the form of a series-connected reversible counter and a digital-to-analog converter, the output of which is the first output of the said unit, the “Transfer” output of the counter is connected to the “Resolution” input and it is the second output of this block, the installation, counting and the input of the selection of the operating mode of which correspond to the similar inputs of the mentioned reverse counter.  7. The device according to claims 1 and 5, characterized in that the pulse-generating quasi-random control signal generating unit is made in the form of a pseudo-random sequence generator, random access memory register and a tunable rectangular pulse generator, the output of which is the third output of the forming unit, pseudo-random sequence generator input is the first input of this block, and the output is the second output of the block and is connected to the input of the random access memory register A property whose “Resolution” input is the second input of the said block, and the corresponding counting outputs are the first output of the said block and are connected to the installation input of the tunable rectangular pulse generator, while one of the output of the random access memory register is the fourth output of the block for generating pulsed quasi random control signals .  8. The device according to claims 1 and 5, characterized in that the pulse-generating quasi-random control signal generating unit is made in the form of two pseudo-random sequence generators, a random access memory register and a tunable rectangular pulse generator, the output of which is the third output of the forming unit, the input of each of pseudo-random sequence generators are connected to the output of the clock generator, and the output of the first generator is connected to the input of the operational register of the output device, the second output is the second output of the said block and is connected to the installation input of the tunable rectangular pulse generator, while the corresponding outputs of the random access memory register are the first and fourth outputs of the said block, the "Resolution" input is the second input of this block.  9. The device according to claim 1, characterized in that the antenna path is made in the form of a frequency-selective path.

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