Keppe Motor

grabcad

The Keppe Motor, designed by Norberto Keppe based on disinverted physics, is a straightforward electric motor featuring two powerful Neodymium 52 magnets in its rotor. A coil fed by a switched power supply creates a magnetic field attempting to align the Neodym magnets; maximum torque occurs when the magnet polarities oppose the electromagnetic field while lowest torque arises from aligned polarities. The motor switches power supply to overcome this moment, turning it back on as polarities near opposite alignment for acceleration. Its inventors claim resonance and high efficiency due to annihilation of reactive power; it cools during operation, converting vacuum energy from the environment into kinetic energy of the rotor. They also assert that stored energy can drive other electrical devices by charging a capacitor bank during the time interval when the power supply is off, achieving an overunity efficiency (COP) of 137%. The initial prototype had inertia-related issues with single coil, solved by splitting it for left and right stator sides, each switched by MOSFETs. The alternating current flow in opposite directions through the coils creates opposing magnetic flux for continuous rotor turning. Despite only 40 Watts, the motor exhibits a remarkable torque. More details are available on keppemotor.com; STL files allow 3D printing of coil cage.