I have a basic circuit diagram that shows the possible concept I want to work with. on youtube here.
https://youtu.be/df89mwfPzTI
I have a basic circuit diagram that shows the possible concept I want to work with. on youtube here.
the idea in short, I'm using a simple diode rectifier circuit to convert the AC signal from the antenna to DC. We use this very low voltage as a trigger source that is pulsed at 1% duty cycle with a controller circuit into a bigger coil, Since in real life RF levels may be so so very low for the average person. some sort of pre-stage would be needed to make this work.
It made me think and with comments from others and conversations I had in private. I came to conclude that using a pre-driver stage with smaller coils and thinner wires to build up a quick, low-current, high-voltage spike could be a useful approach for generating back EMF pulses to drive with larger coils with a little input drive. The idea behind this approach is to use the smaller coils and wires to create a rapid voltage spike, which is then used to trigger a larger back EMF pulse in the larger coil.
To implement this approach, I could use a separate circuit consisting of one or more smaller coils and a driver circuit to generate the initial voltage spike from the input RF ambient. The driver circuit could consist of a high-voltage, fast-switching transistor or other electronic component that is capable of rapidly switching the current on and off in the smaller coils.
Once the voltage spike has been generated, it can be used to trigger a larger back EMF pulse in the larger coil. This can be accomplished by coupling the output of the smaller coil circuit to the input of the larger coil circuit using a transformer or other coupling device. If I keep cascading this setup into big coils at some point when I step down the final high voltage of several thousand volts from the bigger coils,It is possible that I could use the high voltage generated by using a spark gap and Tesla coil in rerverse to be used to step down the voltage to a more manageable level to light up a 100 watt light bulb.
Overall, using a pre-driver stage with smaller coils and thinner wires can be an effective way to generate high-voltage back EMF pulses with larger coils. However, it will require careful design and experimentation to ensure that the smaller coil circuit is capable of generating a strong enough voltage spike to trigger the desired back EMF pulse in the larger coil.
It's also possible to build a feedback loop system using two coils and MOSFETs to create a controlled chaotic back EMF, but the design and implementation would be complex and require careful tuning to achieve stable operation. The back EMF generated in the system could be tapped and used to power a load, such as a 100 watt light bulb. The output voltage of the system would likely be highly variable and difficult to control, which could make it challenging to use for many practical applications.
I could fix that issue by just using the system to charge large commercial 60-70 volt batteries like Bedini did and use commercial grade inverters to get back 110/220 volts 60 hertz AC to run household. This way, I have a stable and reliable source of power for my home.
Taking it another step like Tesla wanted. It is theoretically possible to use the Earth's resonance or magnetic field to induce a back EMF in other nearby planets, which could then be amplified and sent back to Earth in a feedback loop.