Selfrunning Free Energy devices up to 5 KW from Tariel Kapanadze

[wattsup]

@all

If it is possible to get back to our real reasons for being here, I need to clarify something.

OK, so I have a question but have to describe the set-up first.

I have a 120vac mains line. (two wires only - hot and neutral)(Yes I am very careful - lol).
I have a ground that goes to the house mains ground. (G1)
I have an isolation transformer 120vac/120vac.
I have two FWBRs (F1 and F2) each with DC sides D1+ and D1- and D2+ and D2-.

The AC goes to the primary and on that primary is also added F1 on the AC side with DC output D1+ and D1-.
On the secondary is added only the F2 on the AC side with DC output D2+ and D2-.
I have a 120vac light bulb with wires B1 and B2.

When I connect the AC plug to the mains and connect the bulb to different locations, here is what happens.

1) B1 and B2 to D1+ and D1-. Bulb lit - Expected
2) B1 and B2 to D2+ and D2-. Bulb lit - Expected
3) B1 to D2+ and B2 to G1, Bulb not lit - Expected
4) B1 to D2- and B2 to G1, Bulb not lit - Expected
Now...
5) B1 to D1+ and B2 to G1, Bulb lit - Not Expected - Hmmmmm
6) B1 to D1- and B2 to G1, Bulb lit - Not Expected - Hmmmmm

So the question is if the bridge rectifier receives AC and the output is DC, why is there a difference between 3-4 and 5-6.

If DC is DC, then why the difference. Unless DC is not DC under certain conditions.

The above scenario takes the basic connections of the 2004 device where.....

The transformer is the visible transformer with the diode plate as F2 have output D2+ and D2-.
The F1 bridge connections to the primary is the AC5 line.
So this is a basic copy suggesting that there is a FWBR in the tin can.

I have always thought that once the rectifier passes the AC to DC, there is no turning back or going back. So how did 5-6 occur??

I am again doing simple test copies of the 2004 device, going one step at a time and will add more steps as I progress through the basics.

wattsup

[27Bubba]

@all

If it is possible to get back to our real reasons for being here, I need to clarify something.

OK, so I have a question but have to describe the set-up first.

I have a 120vac mains line. (two wires only - hot and neutral)(Yes I am very careful - lol).
I have a ground that goes to the house mains ground. (G1)
I have an isolation transformer 120vac/120vac.
I have two FWBRs (F1 and F2) each with DC sides D1+ and D1- and D2+ and D2-.

The AC goes to the primary and on that primary is also added F1 on the AC side with DC output D1+ and D1-.
On the secondary is added only the F2 on the AC side with DC output D2+ and D2-.
I have a 120vac light bulb with wires B1 and B2.

When I connect the AC plug to the mains and connect the bulb to different locations, here is what happens.

1) B1 and B2 to D1+ and D1-. Bulb lit - Expected
2) B1 and B2 to D2+ and D2-. Bulb lit - Expected
3) B1 to D2+ and B2 to G1, Bulb not lit - Expected
4) B1 to D2- and B2 to G1, Bulb not lit - Expected
Now...
5) B1 to D1+ and B2 to G1, Bulb lit - Not Expected - Hmmmmm
6) B1 to D1- and B2 to G1, Bulb lit - Not Expected - Hmmmmm

So the question is if the bridge rectifier receives AC and the output is DC, why is there a difference between 3-4 and 5-6.

If DC is DC, then why the difference. Unless DC is not DC under certain conditions.

The above scenario takes the basic connections of the 2004 device where.....

The transformer is the visible transformer with the diode plate as F2 have output D2+ and D2-.
The F1 bridge connections to the primary is the AC5 line.
So this is a basic copy suggesting that there is a FWBR in the tin can.

I have always thought that once the rectifier passes the AC to DC, there is no turning back or going back. So how did 5-6 occur??

I am again doing simple test copies of the 2004 device, going one step at a time and will add more steps as I progress through the basics.

wattsup

I wish I have an answer to your questions. I'm sure local scientists chime in and help solving it.. At any rate I'm impressed with your progress which I'm following closely. Wouldn't mind point to spot where the abbreviations like "FWBR"are explained?  8)Thanks and good luck...

[xenomorphlabs]

@all

If it is possible to get back to our real reasons for being here, I need to clarify something.

OK, so I have a question but have to describe the set-up first.

I have a 120vac mains line. (two wires only - hot and neutral)(Yes I am very careful - lol).
I have a ground that goes to the house mains ground. (G1)
I have an isolation transformer 120vac/120vac.
I have two FWBRs (F1 and F2) each with DC sides D1+ and D1- and D2+ and D2-.

The AC goes to the primary and on that primary is also added F1 on the AC side with DC output D1+ and D1-.
On the secondary is added only the F2 on the AC side with DC output D2+ and D2-.
I have a 120vac light bulb with wires B1 and B2.

When I connect the AC plug to the mains and connect the bulb to different locations, here is what happens.

1) B1 and B2 to D1+ and D1-. Bulb lit - Expected
2) B1 and B2 to D2+ and D2-. Bulb lit - Expected
3) B1 to D2+ and B2 to G1, Bulb not lit - Expected
4) B1 to D2- and B2 to G1, Bulb not lit - Expected
Now...
5) B1 to D1+ and B2 to G1, Bulb lit - Not Expected - Hmmmmm
6) B1 to D1- and B2 to G1, Bulb lit - Not Expected - Hmmmmm

So the question is if the bridge rectifier receives AC and the output is DC, why is there a difference between 3-4 and 5-6.

If DC is DC, then why the difference. Unless DC is not DC under certain conditions.

The above scenario takes the basic connections of the 2004 device where.....

The transformer is the visible transformer with the diode plate as F2 have output D2+ and D2-.
The F1 bridge connections to the primary is the AC5 line.
So this is a basic copy suggesting that there is a FWBR in the tin can.

I have always thought that once the rectifier passes the AC to DC, there is no turning back or going back. So how did 5-6 occur? ?

I am again doing simple test copies of the 2004 device, going one step at a time and will add more steps as I progress through the basics.

wattsup

On the primary side the potential is in reference to the ground potential, so you have no floating potentials.
The potential difference created for you by the energy company in regards to ground.

Maybe you can draw the circuit? That way it is better to see how you connected everything.

[jbignes5]

@wattsup

This might help you a bit with the isolation transformer Wattsup.


http://www.youtube.com/watch?v=UvHCQswnjEg&feature=related

Lets just say you are pulling the potential difference from each side of the transformer. Also the full wave diode bridge isn't true DC. It becomes pulsed DC. Adding a cap will filter the pulse out to a degree but it is pulsed non the less even after filtering.

So the isolation transformer inverts the ac signal. If you pick it off at the right points this will actually double the potential difference if they are compared like you are doing.

The interesting parts of the video is the air coil and winding directions of each coil.

It would be easier if you supply a schematic so I can show you better.

FYI dc 2 dc filtering(scrubbing) http://www.youtube.com/watch?feature=endscreen&NR=1&v=G-Llhy2ViUY

[andrea76]

when Kapanadze discovered the phenomenon (burst of energy )  did not know how to use it. the first thing he tought  was to use it to drive an generator.replacement it with a coil came after (amplifying the alternate current 50 hz).his rotating device is similar to the  Hendershot motor.we have to start  building the "receptor".HOW DO WE KNOW IF WE GOT THE CORRECT IMPULS???  we are in a dark room looking one nail.it s only matter of time....