Safe One Wire energy transfer by Serbian inventor Milutin Miletic

[FatBird]

Good points.  I think you are right.

[stAtrill]

So I was doing a bit of reading over at http://www.ivorcatt.co.uk/em.htm and apparently (eg, according to the doctor who authored the site) the maxwell equations have no provisions for the interactions of TEM waves, neither with each other or at boundaries. So this doctor and a few of his buddies took it upon themselves to do some experimental research, and they found:

1) TEM pulses can exist in superposition
2) This superposition is governed by whether the pulses are similar or dissimilar
3) TEM pulses will reflect at a boundary
4) Superimposed pulses can change the reflection or scattering pattern of the TEM pulse, and help each other across junctions

Now, my math may be a bit shaky, as I just graduated from high school, but given a dielectric with length L and an arbitrarily high permittivity, and given that a TEM pulse propagates at speed c, then you could create a standing wave in the wire by applying alternating square pulses of the length L divided by the harmonic n.
You would have pulses traveling both up and down the wire at speed C and antinodes at every 0.5*L/N. Should you join a loop to the end of the wire, things start getting tricky. Properly superimposed dissimilar pulses shouldn't reflect (as their sums would be zero), but would instead propagate both north and south down the loop, and the two pulses should add up to the energy of the original pulses in the first dielectric via conservation laws (as we currently know them).

We have solved the first problem, energy transfer via one wire. Now, we must create method to extract work from these pulses. Because I have no experience, I am warning that I am purely speculating. But, It seems reasonable to me to simply place the load in the wire at an antinode of the pulses. I know its not that simple, because adding a resistor would cause a small reflection of the TEM pulses, either introducing noise into the system (that could prevent you from extracting current from the full difference of the voltages) or changing the apparent length of the system such that the load is at a node and sees no difference in voltages from which to extract current. So, I am thinking this problem could be solved by a carefully constructed diode circuit, or by 'tuning' the pulses and dielectric wire lengths for a specific load?

What do you guys think? I'm personally very much enjoying that site, I too believe our laws of physics are in for a refresher.

EDIT: This is not likely how he did it, but I'm thinking this could very well be another solution to the same problem. I'd experiment, but unfortunately I don't have a signal generator (or enough EM knowledge).

[EMdevices]

.

[pix]

@StAtrill
Spot on. Read about so called Tesla Hairpin or Lecher lines.
It would be interesting to put a pick-up line ALONG pulsed transmission line. Induced voltages due to electric field component would be large.Doe anybody tested such setup?

Regards,
pix

[NickZ]

  This link was posted on the Jule thief thread, but I though that on this tread is where it should be placed.
  http://www.keelynet.com/energy/milan.htm