Awesome, have you been selling a lot of them?
I've been working on my own design for a while,
and honestly If you guys look at the time and effort it
takes to design, build, test, redesign etc I think
it's cheaper just to buy one....i'll be buying one soon.
Yea I started selling them back in July and sold out of them pretty quick. I have made so changes on the current ones that I am selling and they have been selling pretty good as well. I have a limited supply available and I also have kits available as well. It usually takes about 2 to 3 hours to complete one board. Yea you are right about the time and effort to build and design the boards. It took several months to back engineer this circuit and come up with the design.
Hi Tony
with the greatest of respect you have done very well to re engineer the circuit and it is an enterprising person to market the product for the hard toil. It is an achievement to do so. For an educational and scientific view it is a worthy pursuit that should have its rewards.
The fact is no one so far has openly reported absolute success with non electrolyte 100% water cells that run an engine 100% conclusively.
I have always thought of the issue as.... is the entire circuit in its meyer form absolutely necessary and can the component count be reduced for smaller circuit board size.?
I know people have been told go study the science and electronics to experiment at the level others have. I also know people who have experimented extensively with electrolyte cells, gaps, voltage and % savings off current fuel usage and im told they get gains of between 20 to 40% whilst finding how to keep cells at about 2v and running cool and no or very little contaminant buildup in the cell.
So where to from here? a booster cell for current vehicle efficiency or 100% water as fuel........?
Over the next year I intend to study at my pace the Arduino microprocessor to replace the signal generation portion of the circuit that relies upon a mains supply and frequency as a core frequency for the circuit operation. What I dont know yet is the microprocessor programming (and how to use the 8 PWM they have) and how to properly implement the resonant scanning to raise the rate of scanning and reduce the scanning time to lock on.
To my mind theres 3 distinct sections: the pulse and timing and resonant scanning, 2 The Vic coil and 3 the Cell itself.
Perhaps advancing past the idea of using cells and to the injector and gas processor might be a worthy focus.
with respect
Cheers