Hi David, ill add that to the research paper, would you by any chance have a snap of the set up mate?

Ash

Ash

Standard Imhotep/Bedini schematic circuit.

At the charging battery... hook up the motor pos/pos and neg/neg and the motor acts as a load (it runs).

Reverse the leads from the motor to the battery, pos/neg and neg to charger side of the diode... motor doesn't run, but charging significantly increases.

You can hear the coils in the motor, same frequency as the Imhotep/Bedini fan.

Hm,
doesnt work for me anyhow,
When i use 2A Motor or a 700mA,
it only slows the main down, but doesnt start to singing.

Joit

It seems to work IF you can first make your primary fan coils resonate at a point where the fan does not rotate. Resonate as in "sing" without mechanical movement. Making the primary inductive element resonate seems to be one of those resistive balancing acts.

I have noticed that even the status of the charging battery in some cases can change what frequency is possible.

My objective in the setup was to first stabilize the simple one transistor system (at resonance), then look for ways to increase efficiency expecting to reach final power objective through a series of escalating circuits. Aromaz's (and others) circuits shows some of the potential of amplification through connecting multi stage simple elements.

If each simple element captures more potential, we should be able to get to higher levels of pooled potential with fewer stages. I was surprised to see that with me adding the additional inductive element (the motor) to the charging side of the circuit... that it would elevate output of the single transistor to that of lighting the neon, while its charging the battery. Prior, I could only make the neon light when the charging side of the circuit was not connected. I believe that the neon does indicate a higher operating voltage of the single transistor system, I also noted no "heat" was produced at the transistor. Still cool as a cucumber.

I only mention this result so that others can consider adding inductive elements to potentially raise efficiencies. Although I have no data to prove it, I believe that once primary resonance is achieved... any simple inductive element (coil/magnet) may produce similar results. I do offer the preliminary results while still working to understand the underlying principle that makes it repeatable for any resonant circuit.

My wife last night ask me if resonance was really that important, and I said "it is everything." She responded, "do you want to create resonance here and now?" I said, "absolutely." She said, "take out the garbage."

The sweet sound of marital resonance filled our home.






Aaron! How about a bumper sticker?
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