RU2015144114A - Method and device for transmitting electrical energy - Google Patents

Claims (8)

1. A method of transmitting electrical energy by transmitting resonant oscillations of increased frequency in a circuit consisting of resonant transformers and a single-wire power line between them, characterized in that the transformers use a Tesla transformer in which one of the ends of the secondary winding is connected to the transmission wire, and the second end is grounded and when transmitting electrical energy, feedback is provided with phase-locked loop and voltage control by processing signals with t ansformatora current or antenna placed at an antinode of a current on the secondary side of the transmitting transformer, the temperature control is carried out by means of temperature sensors. 2. A method of transmitting electrical energy by transmitting resonant oscillations of increased frequency in a circuit consisting of resonant transformers and a single-wire power line between them, characterized in that the transformers use a multilayer sectional coreless transformer in which one of the ends of the secondary winding is connected to the transmission wire and the other end is grounded and when transmitting electrical energy, feedback is provided with phase-locked loop and voltage control I, by processing signals from a current transformer or antenna located in the antinode current on the secondary winding of the transmitting transformer, the temperature is controlled by temperature sensors. 3. A method of transmitting electric energy by transmitting resonant oscillations of increased frequency in a circuit consisting of resonant transformers and a single-wire power line between them, characterized in that the transformers use a Tesla transformer in which one of the ends of the secondary winding is connected to the transfer wire, and the second end is isolated from the ground and, when transmitting electric energy, feedback is provided with phase-locked loop and voltage control by processing with latter is present with a current transformer or current antenna placed at the antinode at the secondary side of the transmitting transformer, the temperature control is carried out by means of temperature sensors. 4. A method of transmitting electrical energy by transmitting resonant oscillations of increased frequency in a circuit consisting of resonant transformers and a single-wire power line between them, characterized in that the transformers use a multilayer sectional coreless transformer in which one of the ends of the secondary winding is connected to the transmission wire , and the other end is isolated from the ground, and when transmitting electric energy, feedback is provided with phase-locked loop and control voltage through signal processing with a current transformer or antenna placed at an antinode of a current on the secondary side of the transmitting transformer, the temperature control is carried out by means of temperature sensors. 5. A device for transmitting electrical energy consisting of a frequency converter, resonant transformers and a single-wire power line between them, characterized in that Tesla transformer is used as transformers, in which one of the ends of the secondary winding is connected to the transmission wire, and the second end is also grounded in the converter implemented feedback with phase-locked loop and voltage control by processing signals from a current transformer or antenna placed in antinodes t eye on the secondary winding of the transmitting transformer and the temperature is controlled by temperature sensors. 6. An electric energy transmission device consisting of a frequency converter, resonant transformers and a single-wire power line between them, characterized in that the transformers use a multilayer sectional coreless transformer in which one of the ends of the secondary winding is connected to the transmission wire and the other end is grounded and the converter implements feedback with phase-locked loop and voltage control by processing signals from a current transformer or antennas placed in the antinode current on the secondary winding of the transmitting transformer and the temperature is controlled by temperature sensors. 7. An electric energy transmission device consisting of a frequency converter, resonant transformers and a single-wire power line between them, characterized in that the Tesla transformer is used as transformers, in which one of the ends of the secondary winding is connected to the transmission wire and the other end is isolated from earth and the converter implements feedback with phase-locked loop and voltage control by processing signals from a current transformer or antenna located in the antinode current on the secondary winding of the transmitting transformer and the temperature is controlled by temperature sensors. 8. An electric energy transmission device consisting of a frequency converter, resonant transformers and a single-wire power line between them, characterized in that the transformers use a multilayer sectional coreless transformer in which one of the ends of the secondary winding is connected to the transmission wire and the other end is isolated from ground and in the converter feedback is implemented with phase-locked loop and voltage control by processing signals from transformers Ator current or antenna placed at an antinode of a current on the secondary winding of the transformer of the transmitting and temperature control is carried out by means of temperature sensors.