RU2005130307A - METHOD FOR TRANSMISSION AND RECEIVING OF INFORMATION AND DEVICE FOR ITS IMPLEMENTATION - Google Patents

Claims (4)

1. A method of transmitting and receiving information, including the conversion according to a certain law of the specified information into electrical voltage, the generation of carriers of electric current or electromagnetic waves, the modulation of the specified current or waves using the specified electrical voltage, the reception of modulated electric current propagating through wires or modulated in space electromagnetic waves, demodulating received electric current or waves and extracting from demodulated current or waves transmitted information using the specified transformation law, characterized in that the said modulation is carried out by spatial-frequency vibrational modes that occur during the generation of electric charge carriers that form the specified electric current and depend on the electric and / or magnetic fields applied to the region of the specified generation, or spatial-frequency vibrational modes that occur during the passage of an electric current through certain substances, such as water e solutions of ethyl alcohol, etc., also depending on the electric and / or magnetic fields applied to the region of the indicated passage, and the indicated demodulation is carried out by analyzing the spatial-frequency modes of the vibrations brought by the received electric current (for a two-wire transmission-reception method) or an electric current generated by the received electromagnetic waves (for the wireless transmission-reception method) in the receiving device using galvanic magnetic effects, for example, the Hall effect. 2. The method according to claim 1, characterized in that said modulation is carried out by said vibration modes of two or more different types of said current sources and / or various indicated chemical substances. 3. A device for transmitting and receiving information consisting of a transmitter including a digital or analog converter of the specified information into electrical voltage, a carrier frequency of electromagnetic waves and a modulator, transmitting and receiving antennas (with a wireless transmission system) or a two-wire line (with a wired transmission system) and a receiver including an amplifier, a demodulator, and an electrical signal to information converter, characterized in that said transmitter it is single to the plates of the electric capacitor and / or the windings of the transmitter coils, designed to create a magnetic field, between which a chemical current source (or a chemical substance connected to a non-chemical current source) is placed, at the output of which an additional voltage regulator is installed, the output of which is connected to one input of a modulator connected to a transmitting antenna or a two-wire line, to the other input of which a carrier frequency generator is connected, and in the receiver between the an electric current stabilizer is additionally installed by the body and the demodulator, the specified demodulator being a four-terminal device - a galvanomagnetic effect sensor, for example, a Hall sensor placed between the receiver coils designed to create a magnetic field, and the outputs of the said four-terminal device are connected to the electric signal analyzer, and the outputs of the latter are connected with a device for the inverse conversion of the received electrical signals into information, for example, a speaker. 4. The device according to claim 3, characterized in that between the specified plates or the indicated coils are two or more different types of chemical current sources and / or chemicals connected to a non-chemical current source, and a switch is installed in front of the voltage regulator alternately connecting to it currents of said sources and / or currents from a non-chemical source passing through said chemicals and two or more of said demodules are installed in the receiver tori located at different angles to the direction of magnetic field generated by said coils.