Відео

Thanks!

HHO? Yes. No inductors on the driver circuit, if that's what you mean. Just a basic PWM feeding a Mosfet. This is not standard electrolysis cell by any means.

(Didn’t watch the whole video but you earned a sub anyway)

The algorithm works. haha.

It's a circuit that makes hydrogen gas from water. Kind of like electrolysis but a very different type of operation.

Bifilar coil induction (think pancakes)

Thanks for catching that! I blurred the video. I've been looking to take apart this ballast I have so see the transformer. Toroidal cores have shown impressive results, but I believe flybacks are the key.

Cool. Great insight!

I'm sorry and what do you do again??? Scan radio channels? Looks real cool---K... Hold on, let me put down my mad scientist hat for a moment to handle the hater. Day job? I own a managed I.T. service company so yeah, I have the bills paid bruh. Just because you can't follow your own dreams doesn't mean you get to quote "wise men" while simultaneously sh!tt!ng on others with absolutely zero credibility or validity anywhere in real life or the internet. Worry about your own bills... I hear Amazon is hiring drivers though. You should check them out.

lol

ua-cam.com/video/RJnIpCu1JBM/v-deo.htmlsi=WdZ4UzAiAWFMsgkL&t=820

This is the type of feedback and technical insight that I love. Thank you. The magnetization curve being the rate at which it is saturated, I presume? I found this just now which explains a lot: "The knee-point is when a small voltage increase causes a large increase in current." This is exactly what I discovered at the end of this video. Great insight. Much appreciated.

@@noahauman I'm glad to provide some insight. Matter of fact I'm kind of scared of magnetics, exactly because ferrite cores with their formulation and such feels more like sourcery to me than all other things electronics (with the possible exception to antennae, which is a witchcraft of its own kind). I mean, in the formulas, all seems fine and dandy, magnetic circuits behaving kind like a non linear resistor (think of a varistor). But unfortunately, magnetic core are not like resistors, that you read the color codes and you know exactly what it is and what to expect. If you don't have a proper and reliable source, it's hard to tell for instance what kind of ferrite you have in your hands. People who are used to magnetics have their ways to go about that, but I simply cannot grasp. For instance, I can never tell if one magnetic core is the kind that is used to suppress EMI, which presents high losses at high frequencies ( i.e.) ferrite beads, or if it's meant on purpose to operate at high frequencies. But this is one thing about core saturation and the detrimental effect it has on circuits that rely on the inductance of the coil. In a non gapped core, the permittivity is very high, so the inductance but, as current increases near the flattening of the magnetization curve (i.e. saturation) then the magnetic flux inside the core stops increasing which, in its turn, makes the inductance fall. When it is exactly the inductance that is avoiding the current from increasing, a fall in the inductance makes the current spike, which only makes me everything worse. Adding a gap "tames" the core and makes the inductor behave more like an idealized inductor, and thus, easier to model and calculate.

Google lo tradujo como "Utilice también las conexiones de los altavoces". ¿Qué quieres decir con esto?

@@noahauman Jajaja, yo también uso conexiones de altavoces. Es una forma práctica de conectar todo rápidamente.

ChatGPT traduction lol

He is talking about the speaker connectors you are using, because you are using speaker connectors, which he also uses

​@@noahauman, the spring clip terminals are often used on cheaper speakers, i scrapped and saved a bunch, and they work for temporary connections, like what your doing.

From what I understand, the opposite-direction wind makes an out-of-phase waveform (EOP), as compared to a same-direction winding being in-phase. In Stan's WFC memo he literally tells us that copper inductors are best suited utilizing the opposite-winding direction, whereas the SS windings are best suited for bifilar winding.

I have not tried adding any in series. I must try this. Thanks for the suggestion.

Quite possibly. Perhaps inductance values were correct to allow function. Perhaps there is something about the wiring configuration. Perhaps I will rebuild and test.

I bought a couple spools from DynoDon (if I remember correctly), years ago when I started my work. Still have that specific coil used here and just a bit more on a couple said spools. Wish I wouldn't have wasted so much of it. It's such a precious commodity.

My "cells" are Water Fuel Cells. They are basically capacitors, but with natural water as the dielectric. These cells in series act as a capacitor bank. In series with an inductor, it creates a resonant LC circuit. This allows for increased voltage, while restricting amperage. At a given point, there is enough voltage to break apart the water molecules (inside my capacitors). This is the Electrical Polarization Process that creates HHO, without additives or electrolytes added to the water. Here I'm testing some changes in the driver circuit.

Haha. CooowaaaaaBUNGA!

I'm still kinda blown away by the fact the the primary REQUIRES a snubber resistor to achieve voltages high enough do perform the EPP.

Tengo un circuito PWM personalizado. Busque "Dave Lawton PWM". También he usado PWM baratos de Ebay. Espero que esto se traduzca bien.

This is not an electrolysis process in the traditional form. We are not exchanging electrons (amps) to create HHO. This process is voltage dependent, creating voltage fields that restrict amp flow. This allows the voltage 'pressure' to disrupt electron orbits of the water molecule, breaking it apart without exchanging an electron in the process. Ergo, the higher the voltage, the more voltage 'pressure', the more gas production. Amp consumption is actually the enemy in this scenario, whereas voltage is the unit that performs the work.

@@noahauman well you should calculate the efficiency to see if it’s really any better than a conventional low voltage acidified electrochemical cell. The change from water to hydrogen and oxygen fundamentally requires a transfer of electrons from oxygen to hydrogen, there’s no avoiding that. Also is there any reason not to just use rectified mains voltage instead of making a fly back converter? Use a CW multiplier if you want more than that.

In what way, sir? I have a PWM that I do vary the frequency but I'm typically already tuned in to the most optimal frequency for the particular hardware.

He had a few different PWMs. Mine go from 1v to 30v.

Nice work

I was actually just discovering the 2 diode thing, so I must try it, yes. Perhaps in a future video.

I'm apparently reaching people everywhere! Thanks for watching.

My secondary coil is bifilar. With an open center tap, it produces excellent equal-opposite-polarity pulses, though I have had success with the bifilar secondary connected in a dual-mode.

The Water Fuel Cells act as a capacitor. It is attached to the output coil. These water-capacitors are part of my LC circuit.

I would love to wind a transformer that has 80% efficiency. My transformer mathematics are lacking, sadly.

I have a 1L flow meter in my latest videos. Without that I estimate with the ol "fill up a 0.5L bottle vs time" method.

@@noahauman oh nice I used the same method of filling a bottle back when I was playing with hho

Sigh.... Ionization is level 2. Ionization is taking the gas to a higher energy level. You are obsessing over ionization when you are not even at my level 1 of gas production (EPP). Your cells barely produce gas, I've seen your videos. My cells do not heat up. My cells only consume milliamps of power. It is clearly voltage that is performing the work. You are obviously very confused about the Electrical Polarization Process vs Hydrogen Fracturing Technology (ionization). Please stop with the "you are doing it all wrong" finger wagging. Show me a video of your cells producing a tangible amount of gas, then I can take your comments seriously.

@@noahauman ua-cam.com/video/hW78gKn1ZZ0/v-deo.html This is the only video I will share with you on gas production on the way it is supposed to look. I'd like to point your attention to the size of the gas bubbles being generated. It's producing around 2 LPM. What interested me was this matches the eye witness accounts of Prof. Paul Czysz from that video "It Runs on Water" as he tells that it practically boiled the water and someone of his education knows what boiling water looks like as compared to electrolysis. Unlike most I'm doing things following "Scientific Methodology," and not the "Guess Methodology," and as such my results look very different from most working on this technology. But as I wrote to you most just aren't up to the task of dealing with this technology as it takes a far amount of education to be able to understand it correctly. How would you know if your cells are heating up or not if you don't take any temperature readings? Since I have shared the science behind the patents with you so I guess in time you will start to understand the core concepts of this technology if you have a head for science as science does explain this technology but that science has yet to be written in our books of science as it's new.

Are you referring to during the pulse off time? Not letting the voltage fall below a few volts (not past 0v), always? Then yes. Agreed.

when not in use

In coming tests, I plan on comparing single vs bifilar. Perhaps I'll do air vs ferrite cores too.

i used 1 inch plas tube with 24gau 100 turns, 2 of them ,single wound & 1.5 in toroid 200turns 600t 24g&36g. put 80v into toroid got 240v out ,at resonance 1000v across cell. started 80v 2.5a (no gas) got it down to 50mA at resonance (got gas). i have not done bifillar charge/choke yet ,i believe ill get 2000v

No bifilar used here in this video. Utilizing opposite-direction-wound inductors allows for proper waveform (EOP). You can see here they are the outer-most wound (exposed) wire on the toroid.

But more voltage without the proper waveform is moot. The alternator Rotary VIC is in some of my first videos. This is essentially the Solid State equivalent of that alternator.

@@noahauman I'll find them. Ty.

Like a rubber band... Snap-back action, right?

@@noahauman oh yea, with the rubberband being a different "medium" than the air

Thanks for the kind words. RIP Stan.

Thanks for the encouraging words.

It is not the sound driving you nuts. It is that you are nut. Check yourself in already.

I already have a high-shelf EQ enabled. I need to remember to turn it off to talk. Some videos are better than others. Of course, I may be deaf to it by now lol. Perhaps I will be moving controls and scopes to separate location soon.

kinda like the don smith device, pulsing and capturing the collapse of the field perturbation

Exactly. Utilizing that is key. Stan does talk about the pulse being created when the field collapses.

@@noahauman Not collapsing ... this is just pure energy. But has negative resistance effect as well, and reverse entropy.

I do believe this is the Kevin West that taught me how to wind my first Rotary VIC. You published a tutorial years ago that inspired me to build my own... I still have it matter-a-fact! Look at my first few videos with the Rotary VIC and know that it is, in part, yours. Thanks for being that guy.

Just joined. Thanks!

I need to read up more on this. Any keywords other than "transients" that could help my discovery?

@@noahauman Here's a good one ;) Theory and calculation of transient electric phenomena and oscillations by Steinmetz, Charles Proteus, 1865-1923

Thanks for the encouragement. It's increasingly fascinating the more I put together.

I've been scared to use a digital flow meter, because of the exp hazard. I suppose I'm overthinking it though.

The "magic" frequency is, in fact, the resonant frequency (or a harmonic thereof). I need to take some serious measurements of my best coils, though. New videos hopefully soon.

Excellent my friend.

There's a lot of things I'd like to buy, but I'm not out asking for donations (just yet). I have a list --- analog and isolated meters are on it. Thanks for tuning in!

@@noahauman I understand you perfectly. I hope that you too can buy what you are looking for so much...if it were easy it would be boring. Don't give up...I've been at it for 3 years...and I still have a few miles to go to get to what I'm looking for...

Thanks

Thanks for the encouraging words.