Partnered Output Coils - Free Energy

[shylo]

Thanks for the tests' Tinman, That battery looks like the type from those solar garden lights, the ones I have are rated 1.2 or 1.25 volts not sure. So the battery you used was already fully charged? You should put one in that is depleted just to see better the charging and check both ways again.
Who knows maybe you could put your torrid in line with an already operating circuit such as a fridge or tv and have free battery charging , since the current draw didn't change?
Excellent work Thanks
artv

[tinman]

The test video requested by PW.
The camera ran out of memory toward the end of the video,so the last section of the video will seem to go back and start the last test again,as i didnt know where the camera switched off--had to remove some old videos,and start last test again.

https://www.youtube.com/watch?v=Uzx5xHWWYPg

[kEhYo77]

Hi guys.


Interesting transformer, Tinman!
Reminds me of Gabriel Device

[picowatt]

The test video requested by PW.
The camera ran out of memory toward the end of the video,so the last section of the video will seem to go back and start the last test again,as i didnt know where the camera switched off--had to remove some old videos,and start last test again.

https://www.youtube.com/watch?v=Uzx5xHWWYPg

Tinman,

Yikes!  When I suggested that you try attaching one of the pri/sec leads together as a common scope ground, I thought you were driving your primary directly from the FG.  I did not realize you were doing low side switching with a MOSFET!  In my defense, I was unaware that you were inverting the primary drive waveform.

Undo that connection!  Other than a scope probe hook, there should be nothing connected to that "MOSFET drain/one side of the primary" connection point.

I would keep the FG ground, scope ground, battery-, and one side of the secondary(s) under test all at the same (ground) potential.  The primary drive can be probed at the drain but it will have a bit of offset above ground when the MOSFET is on (and, obviously, a lot when the MOSFET is off).  You can also just probe at the FG input for a trigger (as I believe you have been doing).

Regarding driving your MOSFET, what are the R1 and R2 values that you are using at the MOSFET gate?  I see in an earlier video you mentioned your MOSFET was warming a bit and it likely should not be if it were turning on fully and doing so rather fast.  I would put R2 (I believe you mentioned it as being 10K) on the other side of R1, with R1 being just a low R gate stopper at around 10R or so.

In previous tests, were you keeping the batt-, FG gnd, and scope gnd all at the same potential? 

PW

[TinselKoala]

@Picowatt:

I'll jump in here with some information.  As I understand it, TinMan is isolating his FG and scope grounds, so he can connect the FG's "black" or BNC shield lead to the negative battery pole - mosfet Source point, and at the same time connect his two scope probes "across" the primary and secondary of the coil set. So your original suggestion that he connect the two coil "bottoms" together and connect both scope references there is still valid, since the FG's "ground" is isolated and no groundloop will be formed.

We've been discussing this on "that other" forum, but the latest set of waveform tests that he's posted have me confused again...

I've built up a driver circuit from his original schematic and tested it with a plain toroid with 10 turn primary and 30 turn secondary, with a small 12 volt bulb load, but my waveforms are very different from what he has shown. My build of the circuit also wreaks havoc with my regulated power supply so further testing will be using a 12v battery instead.