Троллем меня обозвали.
За то что нет,даже не пытался подвергнуть сомнению работоспособность.
Просто предлагал свои варианты,свои идеи.
Говорят,работает все и так,не нуждается в усовершенствованиях.
Цитата:
Holcomb - Methods and Techniques that lend themselves to the Appliation
Since the windings (coils) are stationary and can be or are individually controlled (switched), a variety of techniques could be applied individually, or in combination, to this device to achieve excess energy.
1. BEMF manipulation - as explained above in BEMF Sequence.
2. More than one induced winding (coil/flux) can be excited by a single inducer winding (coil/flux). This method is evidenced in a variety of claimed excess energy devices (a single central coil "fluxing" many surrounding coils).
3. Manipulation of the di/dt and/or dv/dt inducer waveform (variable/modulated flux w.r.t Faraday-Lenz - by definition).
4. Gains are also achieved by the use of fast rising signals, high voltage/low current, high frequencies, steep BH curves, etc.
Use of the "motor frame" might be for convience only (rotor, stator, windings already exist and are easily obtainable). Tap the windings/coils as required and simply "switch" them in whatever sequence you determine via relays or SiC (fast, low on resistance, high voltage) MosFETS and controller/computer.
On it's face the concept provides a lot to work with - controllable fixed windings (and lots of them) - a suitable enclosure.
A rotating magnetic field replacing a conventional generator rotor - what's to be gained there? You see a "few poles" every revolution?
See them all, all the time, always aiding. Your not trying to move anything - just create flux interaction and reduce losses/BEMF!