The Hybrid VIC Controller-The ultimate Stan Meyer test instrument
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- čas přidán 24. 04. 2023
- My latest Stan Meyer project, the Hybrid VIC Controller.
For years I dealt with large oscilloscopes, power supplies, frequency generators, and unreliable VIC drive circuits. Every time I was ready to start testing I had to get out all my bulky lab equipment, connect everything, plug it in, and run wires to all my inputs and outputs. More often that not I would spend the first 10-20 minutes checking connections and probing around with a scope trying to find why I wasn't getting a signal or why my drive circuit was only producing half of the signal.
To eliminate all that I designed the Hybrid VIC Controller. Now all I do is connect the VIC & pickup coil and turn it on an I'm up and running. The Hybrid VIC Controller integrates everything needed to drive the Voltage Intensifier Circuit and provides more information than ever before.
Thanks for watching.
BradKwfc@gmail.com - Věda a technologie
Looks like novelty is high, and we all back at it.
Great build👍👍👍👍
Yep. It's time to stop playing and get serious. This is step 1 for me. Step 2 will be in depth testing and analysis of the VIC.
@@BradKwfc🖖 i'm chasing an effect i saw over 13 years ago... distilled water with a long rise tune started behaving like a Van der Graf charginh a 3rd electrode at the top of the rise tube.
@m3sca1 Sounds interesting...You should do a video on it when you get it working again.
@@BradKwfc its odd even in distilled watwr without the effect happening, i can get voltage at the top of the long riser. my latest vids show the cell and tube. will def upload progress. Japan did it with the genepax device...
Out of this world off the hook! Envy factor is definatly high. A labor of love with a very nice result. Cheers!
Thanks for the compliment. Next project is the VIC.
Excellent brother .good qulity work .
Thanks for the compliment. It took a lot of work to get to this point!
Nice job Brad!
Thanks, I appreciate it.
Really cool!
Thanks. More to come.
Nice setup! Hi, you really need to make one with two channels. One for your cell and one for the gas processor so you can make his water fuel for your cell.. I noticed you have your cell wired in series. Despite the picture taken of Stan's estate of the cell being wired in series this is not how it was set up with the 11 cell unit and gas injectors. Each tube set had a vic card and transformer of its own and they were sequentially driven so one cell did not interfere with the next. Keep up the good work and ps make some water fuel for your cell, you could use your vic to drive the gas processor, make the water fuel and swap it over to drive your cell to try to achieve voltage polarisation..Good luck!! And ps have you ever wondered why the vic for the gas processor and water fuel cell are identical? Yes it’s because they are doing the exact same job. Ionising the gases in the gas processor and ionising the gases from the processor now mixed into the water.. Same tool, same job, same gases ,oxygen from air, different dielectric values….Hope this helps you understand the wfc system a bit better...
😮😮 awesome man.
Thanks. It took many hours of work spread out over a few months. I'm glad to finally have a reliable piece of test equipment!
Looks like a solid setup. I was working on a arduino function generator to generate the gated waveforms to drive the primary winding but put it on hold when trying to design a circuit to detect the LC resonance frequency continuously in circuit, it got complicated and I shelved it and I haven’t worked on it since 2021. I need to get back at it and get that finished.
Thanks for the compliment. We're you able to adjust the duty cycle with your Arduino freq gen?
@@BradKwfc yeah I got the arduino PWM to output the correct waveforms to drive a FET driver, but the hard part is the feedback loop that is needed to keep the LC circuit in resonance. The electrolysis cell capacitance changes constantly as the gas is generated between the plates so a feedback circuit is needed to constantly calculate the resonance frequency and vary the PWM frequency. The C and L values need to be calculated in circuit while the cell is being powered so that adds even more complexity. I’m thinking the only way it might be possible is to switch the cell off for a very small duration and run a calculation cycle while the cell is powered down, then re-energize the cell after the calculation is completed, but this would have to happen probably a thousands of times a second so it’s a work in progress.
Another thing I want to test is the LC circuit working with AC current instead of pulsed DC. I remember seeing a video a around 2006-2007 where someone had a bridge rectifier hooked up to the electrolysis cell, so AC resonance may play a part. There’s a lot of theories I want to test with it, I just need to get motivated to work on it again.
Crazy!
Thanks I appreciate it. More to come....
Coooool👍👍👍👍👍
Thanks. Hopefully I'll get the VIC working soon.
What happens if you hook two of these machines onto two separate coils, and put them in the same water cavity, and tune the machines to slightly different frequencies, so that they resonate/agitate each other?
Put the coils in the water cavity?
Or are you saying drive opposing electrodes at slightly different frequencies?
If you applied slightly different frequencies to opposing electrodes, you'd probably see either amplitude or frequency modulation, depending on how they interacted and the circuit they move through, but nothing would happen to the water unless the electric fields were strong enough. Even then, getting the water to break down is a two part process. All you would see is inefficient electrolysis of water with a high degree of side reactions.
I'm not sure what would happen if you put the coils on the water operating at different frequencies. If I had to guess, I'd think you'd see the water shaking from the magnetorestriction of the transformer core.
I agree with the gentleman below. the vic circuit being for one tube set inside the cell. omg I want one. how much would you charge to build this once more?
I've been working on an updated one for the last 6 months that is far better than this. I plan on making them for sale but it's a lot of work to make them and I still have some difficult problems to solve. When its done I'll make a video of it! I'm pretty excited. I think if anything out there can do the job right it will be my new one.
Wow man. Incredible setup, very professional. Are you able to achieve what Stan could?
Thanks. It's only a matter of time.
Very cool but how does it trap ghosts?
Thanks....uhhh no it doesn't.
Hi Brad... way to go.. can you vary the time between the gated pulses ( not the time between each pulse but the time between a group of gated pulses ).. in meyers diagrams that is T3..
Thanks. And yes it does.
@@BradKwfc would you be interested in making one for me... I can pre pay to save you forking out on parts etc.. only thing is we have 240V here..
@electro1622 It's battery operated but it can also be powered with a AC/DC wall power supply with a 2.5mm barrel jack.
I would consider it but the price would be high just because of the amount of time it would take me and the limited time I have at the moment. That's why it took me a few months to complete.
I'll make more videos of the design process and what it's capable of in the coming weeks.
@@BradKwfc OK.. how about a unit to gate (variable) an existing power supply.. I have a variable dc supply ... so all it would have to do is gate the constant dc and then gate it again so I can have gated pulses( T1 and T2 ) with a lower frequency gate for the T3 aspect...That way I can have up to 5 amps if I wanted to.
@electro1622 My first Hybrid VIC Driver will do 5Amps you just need a decent heatsink on it and a 2 channel frequency generator.
Good work! I think the one thing people miss is the PLL. Phase loop lock. Stan mentioned the frequency changes all the time due to temp, water contaminates and so forth. It's a moving target. How much would you sell one of your units for?
Thanks. The PLL is not necessary for proof of concept (resonance can be achieved without it) but yes your correct on the frequency changing. If you do the math you'll find the circuit has a bandwidth of around 30Hz. The source I had hit resonance without the PLL circuit, and once he found out how to tune it he could do it at will regardless of temp etc but it was not easy.
As far as selling the units right now I don't have enough time. Putting it all together took me several weeks because my time is so limited. I want to make another version with a better case design this fall. If there's still interest then I may consider selling a limited number of them.
@@BradKwfc sounds good...sign me up! LoL
I want to build one of them will you show us how u built it
Maybe in a future video. The problem is there's a lot to it. Most of the plans were in my head or only on paper.
In the Meyer solution, the water capacitors, they stay charged all the time?
@rochaaraujo9320 No, they charge and discharge at a frequency of around 200-300Hz. Frequency depends on the time constant of the circuit.
@@BradKwfc what's happen if just charge water capacitor to limit without let breakdown between plates? Will create gas? Capacitor will discharge slowly?
@rochaaraujo9320 It will still create gas, but it won't be in resonance, so it will never reach the phenomenon.
@@BradKwfc sorry man... could you help me understand? What you mean about phenomenon here? Will produce gas but not in same performance?
@rochaaraujo9320 Yes. It will produce gas, but at that point, it's basically just pulsed electrolysis.
Without resonance, the voltage won't rise to the point at which the phenomena occurs.
Looks nice. Would you be able to build if people asked you to? If so, would you consider a paid build?
Thanks. I would consider it but the price would be high just because of the time it takes to put it all together and the l limited time I have at the moment.
How much did it cost to make. Show us it in action
A lot ($600+) if you consider all the design changes and circuit changes I went through.
Are you conditioning water fuel cells?
No
That's been an ongoing debate for a long time. IMO conditioning the cells does nothing. The reaction is so violent it will scrub off any "conditioning" on the electrodes.
@@BradKwfc What alternative do you see for conditioning
@NEMO N IMO conditioning is not necessary for replicating Stan Meyer's work... because the process will essentially scrub it off. You could look at patents like the one by Tay Hee Han, he used a special dielectric to restrict current.
@@BradKwfc Something all Americans are going towards Tay Hee Han.
Your VIC circuit will not work!
It is wound with copper wire.
You need steel wire.
The greater the resistance of the wire, the greater the impedance.
At resonance, the reactance of the coils is compensated by the reactance of the capacitor (fuel cell).
As a result, the active resistance of the steel wire inductors remains.
Meyer's physical and mathematical model is described on my channel
Stainless was only used at elevated voltage levels over 10Kv. In his patents he specifically states two operational modes, one for copper coils and one for stainless steel.