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CFT- (Collapsing Field Technology) - Updated 2008
Looking at at the common transformer, and how it works, supplies the answer.
In any kind of transformer, electricity is transferred between the two coils by the magnetic field. When a coil is initially powered up or switched off, that coil creates a magnetic field which causes an initial rush of electricity, usually called a 'voltage spike.'
In conventional electronics, this voltage spike is suppressed to protect the other components from damage. In collapsing field technology (CFT), that voltage spike is harnessed, not suppressed.
If I take a DC signal generator power supply, and connect it to the primary of the transformer, I can make a generator of sorts.
I'll turn on the DC signal in the primary coil windings for just an instant, and then turn it off.
In the secondary there is a flux linkage following of the primary signal that is some 90% of the input power.
But we can recover also, the secondary's field collapse for an additional 90% of input power.
Thus, any transformer secondary will produce about 180% of the input power in this mode, with a gradually applied quarter sine or sawtooth wave shape. input DC signal.
But wait, we are throwing recoverable power away in the primary coil winding's field collapse. By applying the DC power input signal and then , when the input power is cut off, switch the primary winding's field collapse to the output also, the primary field collapse contributes at least another 90% to the output, for a grand total of about 270% gain, in this design.
The DC power signal must only take primary winding up and then let go (open ) at the top voltage.
Thus, the primary can be switched to the output to recover it's field collapse, that is in synchronozation with the secondary's field collapse.
Simple electronic switching can accomplish all of these functions, at little power usage and low cost.Therefore, the gain of a transformer over-unity generator would probably be about 250% output power to input power, and no mechanical motion needed.
Many old motors and generators could be adapted to the transformer design, given above.
The armature must be fixed permanently stationary and the air gap between armature and field coils filled with iron filings. The air gap iron filings, or iron powder filling is to make the best use of the primary's ( armature ) full flux power.
This makes for best transformer action and the highest power gain possible with this conversion design.
Cooling, through holes, can be left in the air gap if necessary in these units. The external switching electronic circuitry is the same as common transformer design, above.
All we have done is to turn the motor / generator into a reasonable transformer.
What is happening in this design is that for one"up"( power signal ) in the primary coil, we get the "up" ( field build ) in the secondary coil and the " downs" ( field collapses ) of both the secondary and primary coil as output power
Think of the primary coils as coupled "springs" and it will all be clear.
This transformer / generator design has been the nature of electromagnetic coils all the time--we just never saw it.
And if the unit is actuated 60 times a second, allowing for the counter-electromotive force field collapses, it makes the standard household 60Hz electrical generator.
This design concept is the natural last step after recovery of secondary collapses was introduced in generator designs.
The same gain principle and results could then be achieved in capacitor systems.
The charge (up ) cycle from the secondary plate and the two discharge cycles from both the secondary and primary plates would be the output power.
The basic external switching electronics is generally the same as in the transformer designs.
These designs are in the basic nature of energy storage / transfer elements---one input allows for the utility of the one input transfer and the two storage collapses or discharges as output power ( about 300% gain ).
Full article here:Converting Off - Shelf Generators
Thoughts?????
Circuits??????
Looking at at the common transformer, and how it works, supplies the answer.
In any kind of transformer, electricity is transferred between the two coils by the magnetic field. When a coil is initially powered up or switched off, that coil creates a magnetic field which causes an initial rush of electricity, usually called a 'voltage spike.'
In conventional electronics, this voltage spike is suppressed to protect the other components from damage. In collapsing field technology (CFT), that voltage spike is harnessed, not suppressed.
If I take a DC signal generator power supply, and connect it to the primary of the transformer, I can make a generator of sorts.
I'll turn on the DC signal in the primary coil windings for just an instant, and then turn it off.
In the secondary there is a flux linkage following of the primary signal that is some 90% of the input power.
But we can recover also, the secondary's field collapse for an additional 90% of input power.
Thus, any transformer secondary will produce about 180% of the input power in this mode, with a gradually applied quarter sine or sawtooth wave shape. input DC signal.
But wait, we are throwing recoverable power away in the primary coil winding's field collapse. By applying the DC power input signal and then , when the input power is cut off, switch the primary winding's field collapse to the output also, the primary field collapse contributes at least another 90% to the output, for a grand total of about 270% gain, in this design.
The DC power signal must only take primary winding up and then let go (open ) at the top voltage.
Thus, the primary can be switched to the output to recover it's field collapse, that is in synchronozation with the secondary's field collapse.
Simple electronic switching can accomplish all of these functions, at little power usage and low cost.Therefore, the gain of a transformer over-unity generator would probably be about 250% output power to input power, and no mechanical motion needed.
Many old motors and generators could be adapted to the transformer design, given above.
The armature must be fixed permanently stationary and the air gap between armature and field coils filled with iron filings. The air gap iron filings, or iron powder filling is to make the best use of the primary's ( armature ) full flux power.
This makes for best transformer action and the highest power gain possible with this conversion design.
Cooling, through holes, can be left in the air gap if necessary in these units. The external switching electronic circuitry is the same as common transformer design, above.
All we have done is to turn the motor / generator into a reasonable transformer.
What is happening in this design is that for one"up"( power signal ) in the primary coil, we get the "up" ( field build ) in the secondary coil and the " downs" ( field collapses ) of both the secondary and primary coil as output power
Think of the primary coils as coupled "springs" and it will all be clear.
This transformer / generator design has been the nature of electromagnetic coils all the time--we just never saw it.
And if the unit is actuated 60 times a second, allowing for the counter-electromotive force field collapses, it makes the standard household 60Hz electrical generator.
This design concept is the natural last step after recovery of secondary collapses was introduced in generator designs.
The same gain principle and results could then be achieved in capacitor systems.
The charge (up ) cycle from the secondary plate and the two discharge cycles from both the secondary and primary plates would be the output power.
The basic external switching electronics is generally the same as in the transformer designs.
These designs are in the basic nature of energy storage / transfer elements---one input allows for the utility of the one input transfer and the two storage collapses or discharges as output power ( about 300% gain ).
Full article here:Converting Off - Shelf Generators
Thoughts?????
Circuits??????
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