I This is an innovative autonomous power generation system with a magnetic core. It is perfectly suited for private homes, off-grid facilities, and remote infrastructure, providing reliable electricity output of up to 1 MW. The system is especially effective in isolated locations such as islands, distant settlements, and installations far from centralised power networks.
S The station operates entirely independently of external energy sources, requires no fuel, and produces no harmful emissions. As a result, it is environmentally friendly and safe for installation both indoors and outdoors. Two system types are available: one based on linear magnetic motion (up to 200 kW), and the other on rotary magnetic motion (up to 1 MW), depending on specific tasks and user requirements.
Description of the Unit
At the heart of the system lies the interaction between permanent magnets and electromagnets. The electromagnets are controlled by a modern switching module designed on the principle of Nikola Tesla’s switch. For greater reliability, durability, and sustainability, we utilize four supercapacitor banks. Tesla’s switch is a control method in which energy is rapidly toggled between two storage groups (e.g., supercapacitors) in a "flip-flop" manner. In our system, this enables a direct current with rapidly alternating polarity to be supplied to the electromagnets. The resulting pulsed magnetic field interacts with the rotor's permanent magnets, creating continuous rotation. The principle is based on alternating attraction and repulsion: permanent magnets on the rotor are drawn to the stator cores, and at the precise moment, the electromagnets switch to the same polarity, triggering repulsion. This dynamic creates a seamless rotational motion.
This approach eliminates the need for conventional power sources, reduces losses, and boosts overall efficiency. At its core is a unique physical phenomenon: the mechanical interaction between the magnets generates more energy than is required to control the electromagnets. This results in an energy surplus effect that allows the system to operate fully autonomously — without fuel, external sources, or downtime. This principle ensures truly self-sufficient and stable power generation.
The generated electricity is delivered to the consumer via a synchronization module, providing stable output voltage. Output configurations include: single-phase (220–240 V, 50/60 Hz) or three-phase (380–400 V, 50/60 Hz). The generator module is mounted on a robust frame and enclosed in a protective housing, ensuring long-lasting performance and durability.