Partnered Output Coils - Free Energy

[Vortex1]

Brad

Attached is a screenshot of a common mode choke being pulsed from my HP signal generator with a fast diode between the generator and the primary of the coil. I am pulsing at the rate of one 15 mSec pulse per second. The period on the screen is for the ringing wave, not the PRR.

The coil rings at about 1 megahertz. It does not matter what repetition rate I use even up to 100kHz, the ringing is the same on this coil.

I chose a CMC because the winding are carefully matched.

Just wanted to show that it is possible to capture the ringing on two separated traces even at the low pulse rep rate of one second.

[tinman]

Brad

Attached is a screenshot of a common mode choke being pulsed from my HP signal generator with a fast diode between the generator and the primary of the coil. I am pulsing at the rate of one 15 mSec pulse per second. The period on the screen is for the ringing wave, not the PRR.

The coil rings at about 1 megahertz. It does not matter what repetition rate I use even up to 100kHz, the ringing is the same on this coil.

I chose a CMC because the winding are carefully matched.

Just wanted to show that it is possible to capture the ringing on two separated traces even at the low pulse rep rate of one second.

Thanks Vortex for your time and input.

Is the frequency difference between the two channels due to the blue traces waveform amplitude being a little less toward the end of the ringing?.


Brad

[Vortex1]

Thanks Vortex for your time and input.

Is the frequency difference between the two channels due to the blue traces waveform amplitude being a little less toward the end of the ringing?.


Brad

Upper trace (yellow) is the primary, lower(blue) is the secondary.

I observed that too, and I don't have an answer but will check back when I do.

This was my first posted screenshot with the new Rigol DS1054Z. I still have a lot to learn to master this scope, but I'm getting there.

Regards, Vortex1

[EMJunkie]

Hey EMJ'
How about posting some test results on your latest setup--would be good to see how it's coming along your end.


Brad

Brad, you don't need me, you are more than on your way!!!

It is you that has now set a benchmark for others to follow. You have very clearly shown, not only accurate measuring skills and devices that exhibit excess Energy but Honor and Humbleness in doing so!!!

Me, I am not so humble. Something I am working on...

I will say for others here, the Video I released Solid State Generator - How to Build and tune a Solid State Electrical Generator!!! - Low Level OU which was about 2 years old when I Posted it on YouTube, this was the path that got me started.

Graham Gunderson has recently shown the same ideas and concepts and also measured Energy Gains in his device almost exactly the same. For more information on his work, Click Here

Like I said from day one, this is not new! Its old Tech, I have simply replicated others experiments and found through my own discoveries that it does work! Its not so easy, takes some work, one must be patient.

   Chris Sykes
       hyiq.org

[EMJunkie]

On the Accuracy/Precision topic, I would like to add:

Ref: DIY wattmeter with an Arduino

The meter will now measure with a basic tolerance of ±10 %. This poor accuracy is mainly due to the tolerance of the internal reference voltage of the Arduino. But this can be improved to ±0.2 % by calibrating and adjusting the wattmeter.

An accuracy of 0.2% "within a 10 °C temperature range."

Now admittedly I am taking the word of this article for this accuracy and not tested this directly, but knowing the limitations of the Arduino and the supporting hardware, this sounds very reasonable and is superbly excellent for a Home Built Watt Meter!!!

For a very expensive DMM, Fluke, here are the specs: Fluke 289 True-rms Industrial Logging Multimeter with TrendCapture

   Chris Sykes
       hyiq.org