Good stuff, here we go

Alright, ive been doing tests to calculate drag with different charging circuits. conclusions: All my previous circuits that made the generator coil short and produce the high voltage created a significant drag, weather they were charging a cap or not, drag was present in either case. Patmac i also had that same drag in the circuit you posted for me as part of your secret, maybe i did something wrong there, but that was my result. However, good news here, my newest circuit produces the high voltage with no drag at all. I compare the drag of that circuit to the drag of the coil without any circuit operating at all, just an open circuit coil as the control to compare to. I have all my figures to prove this, and ill probally post them later after i get a better grab on this. The circuit is posted below, ill describe its operation. First let me describe what i think is going on here, and what i think patmac has discovered. This is operating like a bedini, but in the reverse direction. Lets start by thinking of both the bedini motor and this generator coil circuit as resonant circuits composed of a capacitor and inductor with a frequency applied(motor speed) to understand the components functions. In the bedini, the power comes from the capacitor (battery) and goes to the coil, where it wants to oscilate back(resonate) but we stick a diode in there to direct that oscilation to a charging battery. Ok,now the generator coil circuit is in the exact opposite direction. Now our power is coming from our coil and goes to the capacitor, where it wants to oscilate back(resonate) but we stick a diode in there to direct it to charge a battery or cap or whatever. Got it, both resonant circuits, one with starting power coming from cap, the other with starting power coming from coil. Now look at my picture to see this in the circuit. The power starts in the coil from the magnet going by it, we close our switch and the power goes to the pulse cap, there it wants to bounce back and when we open our switch it does bounce back and we use the diodes to direct that into our charging capacitor. Thats what makes the bedini so efficient and thats same thing is whats making this generator coil so efficient. Changing the pulse cap value will tune you into resonance and make your output go up for your given frequency(motor speed) and inductance. Im just starting to get a grasp on this, I may be wrong, but its all holding up so far with my testing.

cody

Yes, the schematics (secret) generates drag too, but is the circuit with minimal components that charge a capacitor. There the real way to extract energy from the coil begun.

Your circuit looks well, it's seem like mine, charge a capacitor in one step and next step dump capacitor to the coil, this makes in next step send HV to charging cap. I wait that your dont waste energy in sparks.

About the resonance, I don't think my circuit works with resonance, signal no depends from the coil, depends from the rotor speed, if you want to demonstrate your theory about resonance, get out the reed from your circuit, and makes HV without the reed. I don't use reed, I use solid state device because reed waste energy with the spark.

further explanation of above

Patmac.
You say"depends from rotor speed" Yes!!! Correct!!! Right!!!!
Rotor speed = Frequency
Frequency+coil+capacitor= resonance
If you dont know much about resonant circuits thats alright, we are saying the same thing, we are agreeing my friend!

Here is a visual of how the bedini and the generator coil compare, where the juice is flowing. You will see its the same but in the opposite direction, the bedini opperates in just one half of the resonant cycle, the generator coil opperates in the other half if that makes sense.

You are right about the reed switch, I use it to keep the circuit very simple so everyone can understand

Hmm great graphics....

I understand what are you trying to explain, maybe the unique difference between both, Bedini is self oscilating but generator coil oscilate with rotor speed. If Bedini says, is a Mechanical Oscilator, is the same to tell is a Self Resonance circuit?. Or well, is a Mechanical Resonator or something like that

I got it wired wrong on the generator coil, hold on im gona think about how to correct it and repost the picture, the energy needs to go back on the other side of the switch.

sorry i wired it wrong, little help pat

Its should be wire like this, sorry. So charge is coming through coil. I cant figure out where energy is flowing now. Pat can you help, i think the red and blue lines are wrong now.

On second thought, maybe thats right, maybe the flow of energy isnt so much directional as the arrows suggest but more so just positive and negitive. what do you think?

corrected

I got it now. The voltage is always springing out of the coil, the only difference is the source that induces the coil. one being the capacitor(battery) the other being the magnet. Here is the correction.
Pic1 switch closing
Pic2 switch opening

Ok. I'll show you the second part of my secret, this schematics is the continuation of the first. It's exactly like is drew on my notebook, sorry my scaner don't work with Windows Visto, so I did ít on Livewire.

It's exactly like I told you, but Horiz is esier to understand.

If you look, C1 is charged then is discharged to the coil, when is discharged on the coil, coil gives HV spikes and go to C2 charging cap, if you don't connect charging cap, drag is generated because has no way to go, and tries leaves itself in the coil. This type of HV spark is like a gas, you need give him a path to escape.

you insist on eliminate D1, but is this necessary because generate drag, when magnet is on the core and after go away, generates a signal near to A.C, then this cap tries to send his energy again to the coil.

Maybe is possible make it without diode, like A.C. induction motors, in this way your theory about resonance applies, but remember that capacitor sizes depends of coil and frequency, is not possible determinates the exact frequency, this change with the load of the motor and generator coil.

Ok Patmac, ill try that circuit. You are right, i have been leaving out D1, i didnt understand the purpose of it. I also dont understand the purpose of D2. D3 i do understand. But ill keep playing with it and see if i can figure it out. I am happy to say i feel i finally understand basicly what we are doing now, you have had a lot of time to figure it out and im just trying to catch up. Thank you for making this thread and helping me. If i make any more videos on youtube about these advanced techniques, i will make sure to give the credit to you

Correction

cody

Sorry, I've a error in my last schematics with recovery diode, here the correction, I hope that you noted the error in your test...

Radiant Energy is like a gas, ever wants to go where is easy, imagine capacitors like reservoirs to store the gas, when is near to be full (in pressure), is harder store the gas there, then you, put a escape way, D2 is a escape, gas escape and a little part is stored on C1 again, then the next step is stronger.

Patmac,
I could not get that circuit to work No high voltage from it Maybe i wired it wrong or you got a diode backwards or somethng. What do you think? Just so you know, the circuit that i am currently using puts no additional drag on the rotor, other than the drag of the magnet being attracted to the core as it leaves it. What happened to darkwizard? No one else seems to be interested in this thread anymore Is there any way you could make a energy flow diagram of your circuit, like i did with the red and blue lines so i can better understand what is happening with your circuit? I just used paint on my computer, then uploaded the picture onto photobucket.com and attached the link to here.

I am keeping an eye on this thread. I find it very interesting because soon this stuff will be very useful for me, it is just that I have nothing to add so far
Keep up the good work!

cody,

Look the circuit corrected, that circuit is like the original circuit without mosfet or transistor, THE CIRCUIT PUT DRAG ON THE MOTOR, it dissappear when you connect the output, with low impendance, cap discharged totally, when cap is charged drag begin slowly depends on your cap size, put a battery.

Soon, I'll post, the circuit with lastest improvements, I'm working on it. That last circuit. was first usefull circuit... Don't worry give a couple hours. The most important here, is test all proof of concept, to learn.