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I think we are all familiar with the principle that if you cut off the current to an inductor very sharply it will generate what is referred to as the radiant or transient spike. Bedini has claimed that when this spike hits the battery, it will cause the battery to resonate at its ionic frequency which "shakes" the extra energy we require from the vacuum.
I haven't seen John's scope shots so I can not say 100% if this is exactly what he is talking about, but it appears to be what he describes.
The following scope shots are taken from my Fat Boy Oscillator. Full details of Fat Boy are on my website.
The Underground Lab : Blog
Unfortunately my scope is a fossil and I don't trust it to make accurate measurements, though I am confidant the waveform is displayed correctly. If someone would like to send me a decent scope for christmas I can make some accurate measurements for you
Scope shot one - Set so that the spikes are fully visible.
Scope shot two - Changed volts per division so the majority of the spike, and the drop in voltage afterwards, is visible
Scope shot three - Stretched time per division so that the a single pulse to the battery take up the entire display.
Scope shot four - Stretched time so that only the oscillations after the spike is displayed.
Scope shot five - reduced voltage per division so that the entire spike and the following oscillations are visible.
The Fat Boy Oscillator produces the best quality waveform out of everything I have ever built so what you see on your scope may be a bit different. On most of my oscillators there are normally less than half a dozen oscillations before it levels out. If using multiple coils, then the waveform may appear distorted because of slight differences in the coils. I once accidentally used a 1N4007 diode on a multicoiler that used UF4007 diodes on all the other coils. Because the 1N4007 has a slower switching speed compared to the UF4007, two spikes hit the battery at different times and really messed up the wave! I believe this is one of the reasons for using multiple diodes in parallel on each winding so that the slight differences in switching speeds between the diodes (even if they are the same model) become less of a problem as they are more likely to be matched.
I think we are all familiar with the principle that if you cut off the current to an inductor very sharply it will generate what is referred to as the radiant or transient spike. Bedini has claimed that when this spike hits the battery, it will cause the battery to resonate at its ionic frequency which "shakes" the extra energy we require from the vacuum.
I haven't seen John's scope shots so I can not say 100% if this is exactly what he is talking about, but it appears to be what he describes.
The following scope shots are taken from my Fat Boy Oscillator. Full details of Fat Boy are on my website.
The Underground Lab : Blog
Unfortunately my scope is a fossil and I don't trust it to make accurate measurements, though I am confidant the waveform is displayed correctly. If someone would like to send me a decent scope for christmas I can make some accurate measurements for you
Scope shot one - Set so that the spikes are fully visible.
Scope shot two - Changed volts per division so the majority of the spike, and the drop in voltage afterwards, is visible
Scope shot three - Stretched time per division so that the a single pulse to the battery take up the entire display.
Scope shot four - Stretched time so that only the oscillations after the spike is displayed.
Scope shot five - reduced voltage per division so that the entire spike and the following oscillations are visible.
The Fat Boy Oscillator produces the best quality waveform out of everything I have ever built so what you see on your scope may be a bit different. On most of my oscillators there are normally less than half a dozen oscillations before it levels out. If using multiple coils, then the waveform may appear distorted because of slight differences in the coils. I once accidentally used a 1N4007 diode on a multicoiler that used UF4007 diodes on all the other coils. Because the 1N4007 has a slower switching speed compared to the UF4007, two spikes hit the battery at different times and really messed up the wave! I believe this is one of the reasons for using multiple diodes in parallel on each winding so that the slight differences in switching speeds between the diodes (even if they are the same model) become less of a problem as they are more likely to be matched.
I think we are all familiar with the principle that if you cut off the current to an inductor very sharply it will generate what is referred to as the radiant or transient spike. Bedini has claimed that when this spike hits the battery, it will cause the battery to resonate at its ionic frequency which "shakes" the extra energy we require from the vacuum.
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