The waveform needs to have very sharply rising and falling edges and a frequency of some 900 MHz, which is not an easy circuit to produce. That will not be done with a mechanical switching system, and no solid-state solution springs to mind. Even providing a separate circuit for each pulse coil, each circuit would need to generate a 1 nanosecond pulse every 3 nanoseconds. This is a nice theory, but there is no obvious way of implementing it in practice. This is to produce a continuously rotating magnetic field around the circumference of the toroidal coil. Then, after one more nanosecond, pulse coil 2 is powered down and pulse coil 3 is pulsed. The idea is then to cut off the drive to pulse coil 1 and power pulse coil 2 in order to continue the drive for the energy which has just flowed through pulse coil 1. If the circumference length of the toroidal coil is one metre, then the energy flow through that third of the circumference will be completed in just under one nanosecond. The energy flow will be at 186,000 miles per second or about 300,000,000 metres per second. If pulse coil 1 is powered up, it causes an energy flow in a clockwise direction, through the pulse coil and therefore, along that section of the toroidal coil. For the purpose of this explanation, just three coils are shown here: These coils should overlap slightly at each end. Nikola Tesla used a spark gap for pulses of that duration, but operating a spark gap is a very long way from a current-less drive pulse.Īnyway, tao's idea is to have three, six, nine or twelve pulse coils around the circumference of the toroidal coil. From an electronics point of view, this is a very tall order indeed, especially since there must be no reverse voltage at the time of switch off. In theory, we should get the drive which we want, without any current flowing at all - drive from just voltage potential alone. However, the strategy is to have minimum current flow in the pulsing coils, so the idea is to cut off the voltage applied to the pulse coil before actual current has an opportunity to flow. A minute fraction of this massive energy flow happens to ride along the magnetic field around the toroidal wire coil, which is exactly what we want. This is exactly the same situation as arises when a battery "dipole" unbalances the local field, creating broken symmetry and causing massive energy flows to radiate out from each pole of the dipole. The zero-point field energy flow is created by the imbalance of the local energy field by the magnetic "dipole" created by the current flowing through the pulse coil.
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