Reliable and Flexible Switching System

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Chris posted this 3 weeks ago

A Reliable and Flexible Switching System is second to none, it is the most important piece of Hardware one could have on your bench!

I was lucky enough to share some data with a friend that had worked on this same concept with one of his friends, Back then, the idea was called the: Quadratron


Funny enough TheOldScientist has done some videos on this:


I have also build a few versions of my own inception of the: Quadratron which is now called IPC-quadra


Version One:


Version Two:



I have another H Bridge I use also, this is not related to the Quadratron. It is a Custom Built, Salvaged from an Old UPS, 3000VA:


I think it is important to not, this is very handy, but its not a necessity, cheaper and easier options exist. EBay has some good options. Variable Frequency and Duty Cycle are the absolute most important.

High Voltage and Current is not necessary.

I personally find a Microcontroller is a good cheap option! Easy to use, Plug and Play if you don't mind the pun! I have built all my own software:


I think if we combined our skills, we as a team could come up with a community based project that is better and cheaper than all options presented!

China could do cheap PCB's, We could build our own software!

We could find a cheap Microcontroller.

Let me know if you're keen to look into this!


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Chris posted this 3 weeks ago

For those that are not in the know, a System like this, a Custom, or a Reliable and Flexible Switching System, will allow you to set a Frequency and a Duty Cycle easily and quickly!

The Microcontroller: 


All controlled from your computer or laptop:






All done very easily, a GUI that can be easily customised! Simply scroll your Mouse Wheel and the Frequency or Duty Cycle is changed.

Alas, no good for cooking Sausages!


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Zanzal posted this 3 weeks ago

Were you considering a DIY kit, or a retail item to be sold, or a how-to instructable for people to build their own? I'm all for using knowledge to build useful and exciting products. 

If you are looking for ideas: a tiny OLED screen, a few rotary encoders, and an ESP-32S would be a fairly cheap way to go. Simplify the circuitry by using opto-mosfet drivers (FOD3180 for example). The wifi on the ESP-32S means that a web interface could be added with one of the two cores for signal generation. Add a 3D printed case and a 5V wall adapter.

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Chris posted this 3 weeks ago

Hi Zanzal, not sure yet.

The Circuit above is not mine to sell, so I will have to come up with something different.

A small plug and play board would be nice, easy for people to get started.

WiFi has trouble with this sort off thing, the work we are doing, there are frequencies that take out the WiFi and the device becomes unresponsive. So, although a good idea, its a bit hard to incorporate.

Yes a oled would be a good idea!


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cd_sharp posted this 2 weeks ago

Hi, guys! I also recently have been having an idea to make an H-bridge. Since I have a dual channel function generator able to control the phase difference between the channels, I came up with this idea:

I wish to use it to feed the primary coil in a device similar to Graham Gunderson. I understood that AC is absolutely necessary. Please, let me know any of your thoughts on this!

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Chris posted this 2 weeks ago

Hey CD, a good Reliable Switching System is a real handy tool for sure.

I would like to point out, AC and DC both work and both work equally well, but under different circumstances. AC, however, is much better in the Mr Preva Experiment.

In different Systems, the geometry might be quite different, but the basic under laying processes the same.

For example, we have recently covered how the similarity's are very much the same between the MIT of Graham Gunderson and the 30 Watt Lantern of Akula. Although they are quite different in how they get to the end result, they both get to the same end result.

The Some Coils Buck and some Coils DONT Thread covers a huge amount of the reason behind why I am pointing this out.

Graham Gunderson gave us his Timing Cycle, as did Akula, this is where we should be looking, connecting the dots and making the connections to an Excess in Electromagnetic Induction. In other words Asymmetrical Electromagnetic Induction.

  • AC, a Sinusoidal Wave is a continuous gradual Change over Time
  • DC, Square Wave is a sharp, Transient, then with long periods of no change over Time (DC).

But from the early days of the Andrey Melnichenko GLED, Akula 30 Watt Lantern and through to Ruslans Lantern, DC was used.

Graham Gunderson uses AC to get the same end result.

Years ago, I published a schematic: (Circuit and Layout)


With the following waveform: (Scope Shot - Yellow is Current Input - Red is Voltage Output)


Over at "Akula0083 30 Watt Self Running Generator", this was one of my early break throughs. (April 17, 2014) after already knowing about Bucking Coils and how Electromagnetic Induction worked. This was a super important experiment in learning just a little more in my learning curve! Thus the reason I published it!

Why was it a breakthrough? The polarity of the pulsed Coil flips, according to the Dot Notation, thus the Coils then Buck, Energy is then "Generated" as a result of the basic requirements of Faradays Law.

Not a single soul realised this, replicated to see what I was saying... is full of the same simplicity's it was at its inception, circling in unending circles of nothingness...

I hope this makes sense?


cd_sharp posted this 2 weeks ago

Hi, Chris! For the moment I gave up on using pulsed DC and two coils setup (GLED lantern style).

Actually I think that I first heard of an H-bridge from you. But this one

is incomplete. I saw that making an H-bridge using my dual channel FG and 4 MOSFETs is not so straight forward. What signals did you use to drive MOSFETs Q1-Q4? I think Q1 and Q4 gates are being fed a signal 180 degrees out of phase with the signal being fed to Q2 and Q3 gates.

Also, to be able to power anything from the output ends we need a current sensing circuit much like Graham Gunderson uses, which I don't think I am able to draw since my background is not related. I will try to use a MOV on the output, like you have shown Naudin did with the MEG, but I doubt the results could be anything near Graham's.

Thanks for all your help!

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Chris posted this 2 weeks ago

Hey CD, if I may, and with your already good knowledge on the Akula 30 W Lantern, suggest that this might be a good path to stay on?

Yes, a pseudo schematic, incomplete for simplicity.

With my recent experiments, Some Coils Buck and some Coils DONT, that was leading up to the Lantern anyway! This should help you along the way. Perhaps replicating my experiments, with simple stuff, a few simple coils, look at the effects, and maximise on these effects, this will be very much more productive than building the entire thing and then finding it does not work. The Circuit is secondary, this is only a Signal to the Mosfet...

What's really important is to see and understand the Coil Interactions! As we saw in the Mr Preva Experiment.

What I have shared is nearly there, its the start to the next step, after your excellent Mr Preva Experiments, you will see where I was heading, in the direction I was heading, I hope?

As we know, from the Mr Preva Experiments, we saw Electromagnetic Induction at its most basic, fundamental levels, but it did take a little work.

Does your FG support the Duty Cycle Adjustment? If so, what's the supported duty cycle range?

My H-Bridges are all Microcontroller driven, one has a H-Bridge IC which there are many of them today. I can share my code, but the Microcontrollers are no longer being made.

The goal of this thread was to get everyone to decide on a Microcontroller, Code it, and then look at a hardware solution as I have shown above. But only better.

To answer your questions, Q1-4 were driven by a circuit like was shown above:


I have 4 of them side by side, controlled by a Microcontroller. Q1 and Q3 are on and Q2 and Q3 are off, then this flips, 180 degrees out of phase. You're Right. This creates an Alternating, Direct Current Switching Cycle.



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