RU2009102852A - METHOD FOR WIRELESS TRANSFER OF ELECTRIC ENERGY AND DEVICE FOR ITS IMPLEMENTATION - Google Patents

Abstract

1. A method of wireless transmission of electrical energy for powering electric vehicles, mobile phones and other electronic devices, providing for the supply of electrical energy from a resonant power supply system through a high-voltage high-frequency converter at a resonant frequency f0, a single-conductor line and an air gap to individual current collectors of the consumer, characterized in that energy is supplied to the consumer's current collectors by the method of electrostatic induction at a frequency of 0.1-1000 kHz at a line voltage of 0.1-1000 kV through an air gap between two conductive and externally shielded plates of an air capacitor, one of which is emitting and connected to shielded insulated single-conductor line, the capacitance of the insulated shield of the single-conductor line is compensated at the resonant frequency f0 using inductance by connecting the inductance to the shield and ground, the receiving plate receives the radiation study and is built into the consumer's current collector and is connected through a resonant circuit, a rectifier and a charger with an electrical load. ! 2. A device for wireless transmission of electrical energy for powering electric vehicles, mobile phones and other electronic devices, containing a power source connected to a frequency converter and a resonant step-up transformer, a single-conductor line and an air gap between the single-conductor line and consumer current collectors, characterized in that the single-conductor line shielded and connected to the radiating plate�

Claims (6)

1. The method of wireless transmission of electrical energy to power electric vehicles, mobile phones and other electronic devices, providing for the supply of electrical energy from a resonant power supply system through a high-voltage high-frequency converter at a resonant frequency f ₀ , a single-conductor line and an air gap to individual consumer current collectors, characterized in that energy is supplied to the consumer current collectors by electrostatic induction at a frequency of 0.1-1000 kg at a voltage in line 0.1-1000 kV across the air gap between the two conductive and shielded from the outside air capacitor plates, one of which is connected to the radiating and shielded insulated single-conductor lines insulated single-conductor capacitance line screen compensates for the resonance frequency f ₀ with using inductance by connecting the inductance to the shield and ground, the receiving plate receives radiation and is built into the consumer’s current collector and connected through the resonant circuit, rectifier and charger with electric load. 2. A device for wireless transmission of electric energy for powering electric vehicles, mobile phones and other electronic devices, comprising a power source connected to a frequency converter and a resonant step-up transformer, a single-conductor line and an air gap between the single-conductor line and the consumer current collectors, characterized in that the single-conductor line made shielded and connected to the radiating plate of the air condenser, through the air gap above the radiation the capacitor receiving plate is located, the receiving and radiating plates on the outside of the air condenser are shielded, the receiving plate is connected to a step-down resonant transformer, the low-voltage winding of which is connected to the rectifier and the charger, and the radiating plate is mounted on the wall, on the floor, is built into furniture or road surface, and the receiving plate with a step-down resonant transformer is integrated into the electronic device. 3. The device for wireless transmission of electrical energy according to claim 2, characterized in that the radiating and receiving plates of the air condenser are made in the form of an insulated metallized plastic. 4. The device for wireless transmission of electrical energy according to claim 2, characterized in that the emitting and receiving plates are made in the form of an insulated metal sheet. 5. The device for wireless transmission of electrical energy according to claim 2, characterized in that the emitting and receiving plates are made in the form of an insulated grid of conductive material. 6. The device for wireless transmission of electrical energy according to claim 1, characterized in that the shield of the single-conductor line is isolated from the single-conductor line and from the ground and connected to the ground through an inductance

where f ₀ is the resonant frequency of the single-conductor line, and C _e is the screen capacitance of the single-conductor line.