Generator by Gerard Morin

[Jeg]

Thank you Tinsel and scratchrobot.
I just wonder what happens if inconceivably small time interval is so small, magnitudes smaller than the actual RC discharging constant of the circuit. Capacitor or coil or battery, in such a small time interval doesn't have time to give any current at the output. Only pure voltage pulses or radiant if you like will be released. Isn't it a fact that radiant induces current by its interaction with copper? If not I am sorry for mentioning this. But if it is like that, how can someone predict input and output consumption numbers with the well known equations?

[scratchrobot]

Thank you Tinsel and scratchrobot.
I just wonder what happens if inconceivably small time interval is so small, magnitudes smaller than the actual RC discharging constant of the circuit. Capacitor or coil or battery, in such a small time interval doesn't have time to give any current at the output. Only pure voltage pulses or radiant if you like will be released. Isn't it a fact that radiant induces current by its interaction with copper? If not I am sorry for mentioning this. But if it is like that, how can someone predict input and output consumption numbers with the well known equations?

Isn't this what Bedini is doing? I think it is very difficult to predict the numbers but many experiments have been done but none resulted in overunity.

[Jeg]

but many experiments have been done but none resulted in overunity.

The question for me is how many experimenters have made a solid state switch that hard closes and opens few million times per second and able to withstand serius amounts of voltage without the ionizing effects of spark gaps?

[TinselKoala]

The question for me is how many experimenters have made a solid state switch that hard closes and opens few million times per second and able to withstand serius amounts of voltage without the ionizing effects of spark gaps?

Lots of them. All builders of solid-state Tesla coils, for example. Big SSTCs using fullbridge IGBT primary drivers, for instance.

And even small ones using just a single mosfet with a PLL driver configuration:

http://www.youtube.com/watch?v=XeQ5WnziKBA

[TinselKoala]

Thank you Tinsel and scratchrobot.
I just wonder what happens if inconceivably small time interval is so small, magnitudes smaller than the actual RC discharging constant of the circuit. Capacitor or coil or battery, in such a small time interval doesn't have time to give any current at the output. Only pure voltage pulses or radiant if you like will be released. Isn't it a fact that radiant induces current by its interaction with copper? If not I am sorry for mentioning this. But if it is like that, how can someone predict input and output consumption numbers with the well known equations?

What is this "radiant" in your definition?
In all cases I have ever seen, "radiant" refers to what is actually radio-frequency, more or less high voltage, broadband noise. Which creates an oscillating EM-field, which has the various effects we all know about. Pure voltage pulses? Voltage is charge pressure, relative to some reference, which happens because someone or something is stuffing charge into a reservoir (or draining it away).  When charge moves... as it must in order to produce a voltage difference... that is current.