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**wrtner** · 02-01-2015, 02:56 PM

Originally posted by Quigon10101 View Post

I'm posting this after having read various threads and after viewing videos of this kind involving the BiTT, MiG, basically a transformer set up amplifying electricity. However the one I have tested is different yet simple and easy o build for all actual builders here who have already built a Bedini SG project, with the addition of neodymium magnets placed carefully above and below the iron core of a John Bedini solid state SSG machine. If you built the machine with the intention of going COP>1, even better because then you must have applied the optimizations.

Here is how: (Sorry no picture. But if you have built and understood the thing and also understand how a transformer works, then you don't need one.)

Step 1: Determine the polarity of the electromagnetic poles created by the pulsed D.C. of the Run battery passing through the windings. Since it is pulsed D.C., one end of the iron welding rods core is always north and the other is always south.

Step 2: Determine the polarity of the Neodymium magnets, preferably dime sized in diameter while as much in depth, and mark the faces 'N' and 'S'.

Step 3: Place the magnets on the two ends. The end of the iron core which is always north, place a magnet with its south side facing that end. Vice versa for the other.

Voila! You cannow measure the increase in amps (in hundreds of milliamps specifically) at the output with the help of an ammeter.

I am struggling to understand what the problem that you are trying to solve actually is.

**Michelinho** · 02-01-2015, 04:45 PM

Hi wrtner,

He doesn't have a problem to solve, he is explaining is build. A mix of Bedini SSG, Flynn Parallel Path, GAP Power and Bearden's MEG. The output is according to his build is COP>1

It is a linear transformer with a center input coil, output coil at near each end and a magnet stuck at each end with the polarity set as the input coil polarity.

N magnet S - output coil - N input coil S - output coil - N magnet S mounted on a linear core made of welding rods like the Bedini SSG core.

He then pulse the input coil and collect at the output coils.

Take care,

Michel

**Michelinho** · 02-01-2015, 04:53 PM

A good driver for that would be the Velleman K8004. If you use that driver, swap capacitor C3 (104) with a (103) for a greater frequency range.

Take care,

Michel

**boguslaw** · 02-01-2015, 09:23 PM

Just read what Clemente Figuera explained. There is no better source ...

In dynamo-electric machines like AC generators current is produced by induced coils cut the lines of magnetic force generated by inducers electromagnets, by induction and it's supposed that the force applied to rotate armature is spent to rotate induced so their coils can cut magnetic force lines. In fact the mechanical force consumed by generators are consumed to "kill the dipole" or in other words to break the magnetic force between inducers and the ferromagnetic core of induced , which constitute closed magnetic path (dipole).
This mutual attraction force between inducers and the core of induced is nothing more then a magnet, weak if the armature coils are not loaded and strong when there is load applied to the output.

First : there is no need to rotate whole induced with core, the same effect can be obtained rotating just coils alone without core, accomodating the strength of magnetic dipole by ampere-turns to nulify the effect of air high magnetic reluctance inside the gap between inducers and induced. Second there is no strict requirement to rotate anything , because magnetic dipole is the source of induced currents when changing properly.Thats the hardest to find : if you knew how to move magnetic field lines in space you can generate induced currents without moving induced through magnetic field. Here magnetic field lines are moving in space .

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