RESONANCE EFFECTS FOR EVERYONE TO SHARE

[gotoluc]

Well, OK, here's another way to look at it. You are charging 2  6000 mFd caps to 3.15 volts. That's a total of about 0.06 Joules.
Your h-bridge input current is, say, 30 milliamps RMS at 50 volts. You leave the circuit on for one second, by which time the receiving caps are charged to their 3.15 volts.

So, input is 50 x 0.030 x 1 second, or 1.5 watt-seconds or Joules.

So, even assuming your meter's numbers are correct, you have plenty of energy there to do the job, even with losses.

Am I getting the input numbers right? You are charging for one second, right?

So maybe we don't actually expect any extra current to be visible on the meter.

Dear TinselKoala,

you are not correct and possibly not reading my posts. I will not reply any longer to questions I have already answered.

Luc

[gotoluc]

@gotoluc
@groundloop
@TK

This is to address @gotoluc's concern but would be destined to all three. GOOD WORK GUYS!!!

It is not because we do not interject that we do not follow this progress. Actually, this is teaching me personally about circuits, cooperative progress and more. So please do not give up regardless of the final outcome. This is always a learning process and that is priceless. For me the circuit talk just is way above my head so I prefer to follow and learn. Most of the doers work on several projects at a time so please don't take it personally for not always acknowledging this or that. This is a collaborative process. You learn, I learn we all learn more from all the things we individually do and when it is time, we can use these experiences to help others in other ways. So good on y'all.

Hi wattsup,

glad to see you have been watching the topic and took the time to post your comments.

I hope we can get a good developing group working together on this, since, as far as I can see now it is looking real good

Stay tuned and join us for the ride if you can, since we sure can use a guy like you

Luc

[TinselKoala]

Dear TinselKoala,

you are not correct and possibly not reading my posts. I will not reply any longer to questions I have already answered.

Luc

I don't know what's the matter with you. I am reading your posts and I am asking questions to try to understand what you are doing. If I have the numbers wrong, please correct me. I'm sure the calculation is correct for the numbers I used.

Meanwhile, while you are getting snippy, I have replicated your results in all important details, and I have videoed it, and will be posting it on YouTube shortly.

In brief, I used an 11.4 volt LiPo battery to power the logic and the bridge. I hooked up my flat Tesla Bifilar Coil primary in series with a 5 ohm, 50 watt resistor on the output of the h-bridge. I took a bifilar-wound Tesla aircore resonant secondary and placed it on top of the TBC, very loosely coupled. I hooked up a fast diode and a 100 uF 150 volt capacitor (the biggest I had handy) in series with the secondary. No connection to the primary. I hooked up the Simpson analog voltmeter to the capacitor.
Previously I used the oscilloscope and a low power input to find a resonance. This happened at around 700 kHz.
Now, when I triggered the system, the voltage on the receiving cap shot up from zero to just over 20 volts in under 3 seconds. Since I don't have a resistor the voltage stays on the cap long enough to be measured.
I did this many times. I can't reproduce your input arrangement tonight but I'll do that tomorrow and let you know what happens. Meanwhile, if you are interested, I should have the video posted in a few minutes.

[najman100]

Hell Luc
so now it is midnight and i watched your vid great as always  .
I have suggestion:
We need to standardize the electronics .
aside of the flip flop we need a small inverter that you connect a transformer in reverse so you will have an output of 110 v ,the input should be around 8.0 volts with this inverter we should control the voltage input so if we need less than 110 volts  . i hope Grounlookp will provide us with the answer to this .
next after you find the resonance in your configuration we should disconnect the signal generator  and here it come another circuit a small signal generator with matching frequencies .
so we have 3 circuit that are powered from the same source the flip flop the inverter and the small signal generator and then we can measure the consumption and see if we have unity or over unity .

Thank you
Najman

[gotoluc]

Dear TinselKoala,

please do share your tests and finding as this is the reason the topic was started for

Looking forward to see your video.

Luc