Just don't get between the transmitting antennas.
Reimagining the movement of energy.
What we do
Since the industrial revolution, energy has been transmitted physically either as molecules through pipes and tankers or as electrons through wires. Unshackling the physical connection between electricity generation and consumption can achieve a breakthrough in the energy industry similar to what wireless communications have done for the transfer of information.
EMROD is researching, developing, and implementing cutting-edge long-range wireless power transfer technology. We have developed a proprietary system for safely sending large amounts of power over long distances using microwave energy (also known as power-beaming).
Imagine a world where renewable energy can be generated and sent anywhere.
How It Works
EMROD's technology has three key elements: a transmitting antenna, a rectifying (receiving) antenna and the beam of electromagnetic energy that exists between the two antennas.
At the transmitting side, electricity is converted into electromagnetic energy.
EMROD's proprietary technology shapes electromagnetic energy into a beam that minimizes atmospheric and dispersion loss. This has been a major challenge with other long-range wireless power transfer systems to date.
The beam collection efficiency of EMROD's technology is over 97%. Our current R&D efforts are focused on improving efficiency at the transmitting antenna and rectifying antenna.
Scalability
The technology is scalable in both distance and power levels. The range over which such a collimated beam can be maintained is governed by diffraction physics, which relates the range, antenna diameter, and wavelength to the optimum beam collection efficiency.
Highly-efficient relays can be placed between the transmitting and receiving antennas to redirect the beam and scale up the distance of transmission.
Safety & Reliability
A collimated formation allows the beam to be precisely electronically controlled. The antennas are positioned in a way to avoid anything on the ground passing through the beam.
The built-in safety system temporarily shuts down or douses the beam if any object is about to cross the beam. Collimated, tightly controlled, point-to-point transmission means minimal radiation around the beam, less than there is with high voltage wire transmission.
Modular architecture makes maintenance easy and reduces potential downtime.
Fewer failure points; no lines reduces weather and other physical interference related outages. Weather or atmospheric conditions such as rain, fog, or dust have a negligible impact on the efficiency of the beam.
https://emrod.energy/technology/