Kapanadze Cousin - DALLY FREE ENERGY

[andrea76]

http://www.youtube.com/watch?v=xoxMFJYicXA

[magpwr]

Hi MagPWR

Many thanks. But I still have question for you (or whoever else who read this post).
Frequency on yoke primary side is same with secondary side? of course with induction coil!
Is possible use 494 instead of 3525 ic? (because I have some 494s ic)?
I try decipher your handwrites (I think before just mine is unreadable, but I see Im not alone lol)
on 3525 ic legs 1 and 9 is short cuted? or these connets goes to coil trough mosfets?
4, 8, 11, 14 legs is open? or connected to somewhere?
how much turns prefered on yoke primary and secondary side? and how large wire? (mm2)
if I will build yoke transformer will be static, will search the frequency on yoke and after will search on induction coil, right? (of course finding the right capacitor(s) on induction coil)
can you put again what you writes by hand on induction side?

regards zcsaba77

hi zcsaba77,

Upon comparing both PWM I/C: TL494 and SG3525 using 2 datasheets displayed on 2     23"inch monitors side by side from 1 laptop sometime back.
It seems both I/C have nearly the same supported voltage,frequency range.Since i have started working with locally available 3525 i am more comfortable with it.

My primary reason in selecting SG3535A is purely to cut cost bought 10 for mere $3 USD in ebay and comes with free worldwide delivery.
Locally it's cost me below around $2.5usd per piece.Accidents do happen during prototyping on breadboard especially if you are rushing.
Strangely i tend to be more careful if i am left with only pwm i/c as i know the consequence "down time"

Yes pin 1 and pin 9 is connected for sg3525.The output is pin 11 and pin 14.
Yes pin 4 and 8 is open.
Unless you want to apply optional "soft start where duty starts from 3% then gradually increase to set duty cycle eg:30%" then merely connect 100uf cap + to pin 8 and cap - to gnd.
Do play around with cap value to get your desired soft-start time from ms delay to nearly 2minutes delay.

I have also attached faster more costly PWM I/C:3825 diagram which produce nice waveform for frequency above 200khz.

The only experiment i ever done on yoke core was the Geofusion roundcore experiment powering the Halogen tube few months back.

I would suggest you follow winding details from Nickz "Nick Zec" video in youtube.I'm sure he would assist you if you need help.

Nickz have yet to upload his version of drawn schematic containing all the component value details for anyone whom wish to start with yoke core experiment base on his latest video uploaded around 2 wk back.

[magpwr]

Where are the measurements to show how much power the drill was really consuming. The speed may have looked impressive to you but we see no loading on the drill, so any suggestion that the drill was consuming more power than was available from the source supply whilst free running is pure assumption without load / no load measurements.

hi Hoppy,

There is some truth in drill having 400watt or 800watt "torque" power but under no load condition the required power would be much lower.
I do have a energy audit device but it's late over here to run a drill and observe not the surge in starting Amps but the watt needed for no load run for my knowledge purpose.

I doubt the device creator do have a energy audit device at his disposal just to clarify our doubts.

The device setup in itself is impressive to somehow power a drill designed to run on 50/60hz.I did not mentioned bulbs since i'm little sick of it after seeing many videos using bulbs.

There was a "huge bulb" that was inserted into output and that did not blow the adapter internal fuse.I wonder why and how that is possible.Yes the drill part impress me even more since i reminded me of a older russian video using spark gap to achieve the similar feat using sand grinder under load sanding something or no load both cases at  much slower speed.

The good thing i didn't mentioned as what you quoted "the drill was consuming more power than was available from the source supply".
Since there was no measurement done in video at all and but manage to deliver sufficient advise and evidence to prove this device is no fake.


Look here what i am trying to say the conservative "2amps" 24volt supply(As labelled on adapter) was used to perform this demonstration.Nevertheless it is still a impressive feat even after taking some loses at the circuit and the huge gaps between primary and secondary coil.
I am very confident a 2amp supply can't squeeze 4 or 5Amps without effecting the voltage.
It will be a miracle to do 3Amp for long=24volts x 3amp=72watt.

If it was 5amp or 10amps  24volts supply i might not be interested at all. 

The only way is to build device  and then prove.

[d3x0r]

The device setup in itself is impressive to somehow power a drill designed to run on 50/60hz.I did not mentioned bulbs since i'm little sick of it after seeing many videos using bulbs.

Since the drills are usually variable, they are probably actually DC things and have a rectifier immediate at the AC source; as long as they are reasonably fast diodes would still work...

[Hoppy]

hi Hoppy,

There is some truth in drill having 400watt or 800watt "torque" power but under no load condition the required power would be much lower.
I do have a energy audit device but it's late over here to run a drill and observe not the surge in starting Amps but the watt needed for no load run for my knowledge purpose.

I doubt the device creator do have a energy audit device at his disposal just to clarify our doubts.

The device setup in itself is impressive to somehow power a drill designed to run on 50/60hz.I did not mentioned bulbs since i'm little sick of it after seeing many videos using bulbs.

There was a "huge bulb" that was inserted into output and that did not blow the adapter internal fuse.I wonder why and how that is possible.Yes the drill part impress me even more since i reminded me of a older russian video using spark gap to achieve the similar feat using sand grinder under load sanding something or no load both cases at  much slower speed.

The good thing i didn't mentioned as what you quoted "the drill was consuming more power than was available from the source supply".
Since there was no measurement done in video at all and but manage to deliver sufficient advise and evidence to prove this device is no fake.


Look here what i am trying to say the conservative "2amps" 24volt supply(As labelled on adapter) was used to perform this demonstration.Nevertheless it is still a impressive feat even after taking some loses at the circuit and the huge gaps between primary and secondary coil.
I am very confident a 2amp supply can't squeeze 4 or 5Amps without effecting the voltage.
It will be a miracle to do 3Amp for long=24volts x 3amp=72watt.

If it was 5amp or 10amps  24volts supply i might not be interested at all. 

The only way is to build device  and then prove.

Hi Magpwr,

Picking up on your comments, your fifth para above should have read as follows: -


The good thing i didn't mentioned as what you quoted "the drill was not consuming more power than was available from the source supply".



With regards to the big lamp not blowing the adaptor fuse, the current available from the secondary winding will be limited not only by the high transformer step-up turns ratio but also by the poor coupling factor of the windings. Its very unlikely that even a short circuit on the secondary winding would have resulted in a ruptured fuse.