I have two coils right now. One is three strands of #23 each 1000 feet long. That’s 3,000 feet total of wire. That is what I have used for several years on all versions of my generator. I also have a coil with 12 strands of #23 each 250 feet long which is the coil I recommended people wind so that they would have the MOST options in ways to connect these strands in series. It has groups of four wires connected in series, so three wires come off the coil for a total of 3,000 feet of wire. Other than that, the two coils are identical. Same amount of wire, same core material, same coil bobbin.

The 3 strand coil speeds up at 2800 rpm. The 12 wire speeds up at 1800 rpm. The outputs of the two coils as generator coils are identical at 1800 rpm, but it costs me MORE in amp draw of the prime mover and voltage to the prime mover to GET the rotor up to 1800 rpm when I put the 3 wire coil under load. It immediately boggs down and I have to increase voltage to speed it up to get it back up to 1800 rpm. It also draws MORE amps. When I put the 12 wire coil under load at 1800 rpm, it remains at 1800 rpm. I do NOT have to increase the voltage to get it back up to 1800 rpm. The amp draw does NOT go up. If you see no BENEFIT to this, especially when you have 12 coils on the motor dragging it down, i really have nothing more to share with you.

According to Tesla’s patent, coils wound with wire in parallel and connected in series increases the capacitance of the coil, eliminating its self induction. I believe him.

@ Bi:

I never said that the speed up under load effect or delayed lenz effect is useless. ...

... That this "speed-up under load" is inconsequential to the generator performance at load. ...

bi,
The “gift” these kind of coils give is the WHOLE basis for my generator. If you can put as many coils as you want around a rotor and when they are connected to a load there is NO effect on the prime mover, what does it cost you to produce power from every single one of those coils? It costs you the same as if NO coils were in place. That is the difference between these coils and standard coils.

But that is only half of the solution. Every time you add a coil around a rotor, even when it is turning at speed, it affects the rpm of the motor as well as the amp draw because the rotor magnets are moving past iron cores which drags the motor down. Put ENOUGH coils around a rotor and the amp draw becomes so high that the motor will burn up. If you don’t believe me, give it a try. Unloaded coils with iron cores. Enough of them will KILL your motor. I have 12 of them on my generator that can be turned by a stock MY1020 motor. I promise you that if YOU try to do it with a rotor that has 1”x 1” x 3/4” thick magnets on it you will not be able to get more than 4 coils around your rotor without burning up the motor if run for any length of time. Would you like to make a small bet on that?

But I can place MY coils around the rotor with NO increase in amp draw to the motor and NO decrease in rpms, or ALMOST none of either. 12 coils, 14, 16, 20. Whatever I have room for. Want more power out? Build a bigger rotor with more magnets and more coils. Your only cost fir turning the rotor is what it would cost you if NO coils were in place at all. (Not QUITE, but close enough, and that’s the point)

The rotor is ALWAYS free wheeling and can be spun by hand, even with 12 coils and 24 neo magnets on the rotor. Can you do that? No you can’t, yet you insist that everything I have tried to show is useless. You are a funny, funny man.

By the end of July I should have my machine back up and running. I have been collecting the parts from where they were scattered and I am going to shoot a video of the assembly process so people can see why it works and how it is put together. Then what are you going to do? LOL.

You say all my contributions are gibberish. But let me ask you a simple question

1.Why is it that every home in America doesn’t have a huge generator built into their garage that has giant power producing coils all run by a small 12 volt motor needing only a few amps? What Keeps everyone from building such a device?

And that is where you are absolutely incorrect, so I am done trying to help you.

A CHILD could do what you ask, but you can't. That just kills me.

Because it is impossible. An electric generator is an energy conversion device. It requires more energy input (in mechanical form thru the shaft) than the energy it outputs to the load (electricity). Nothing you're doing, or anybody has done, changes that fact.

Regards,

bi

Hi Bistander,
some time ago you posted a link to a generator design
which appeared to be very efficient.
I think it was possibly an axial design aimed at wind energy.
I'd be most grateful if you could re-post it.