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Generator coils with larger cores.

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  • #1

    Generator coils with larger cores.

    Hi Gents,

    Did anything good come from the generator coils with larger cores from Peter Lindemann?
    I've done a side by side test of the 3/4" core versus a larger core.
    Same amount of copper, both 8 filar in series and parallel.
    The larger core will charge a capacitor faster even though it doesn't output a higher voltage due to less windings.


    Large core
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  • #2
    Side by side comparisons show lower peaks but more power.
    Coils use the same length of wire.
    The higher voltages are series, the lower parallel.
    Large core is 714mm2
    Small core is 314mm2
    Attached Files
    Last edited by Deuis; 01-07-2022, 01:14 AM.

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    • #3
      Try placing a set of small neos up the middle with the polarity the same as the coil. This works like this the iron core shorts out the flux field then when energized they add there fields so you get free energy your not paying for . finding the best ratio of iron to magnet flux is on you but you should see results anyway. You pluse it with DC . 1 input to 4 out put has been seen .this creates a switching magnet. This might just change everything .

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      • #4
        I've put magnets on the ends of the coils when the machine is running and it results in lower outputs, burying the magnets inside the core would polarize the iron?

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        • #5
          Originally posted by Deuis View Post
          I've put magnets on the ends of the coils when the machine is running and it results in lower outputs, burying the magnets inside the core would polarize the iron?
          What type of pulsing are you doing?DC? Also the huge cores, are they sticking way out the back? Show us your cores on a rotor. All I can see is a disembodied coil that is homemade. Nice thick plastic

          Last edited by BroMikey; 02-15-2022, 04:13 PM.

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          • #6
            All north magnets give little output. You need N S N S to have a motor or generator

            This proves that point, you need 2000-4000rpm and you need 1mm airgap not 1/4"

            That coil should put out hundreds of volts. Cores need a magnet 50% wider to give a good dutycycle so a 1" core needs a 1.5" magnet or ever 30% surface area is better than 3/4" cores and 3/4" magnets. A 1.1" core should have 1.25" magnet

            Last edited by BroMikey; 02-17-2022, 06:41 AM.

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            • #7
              Originally posted by Deuis View Post
              Side by side comparisons show lower peaks but more power.
              Coils use the same length of wire.
              The higher voltages are series, the lower parallel.
              Large core is 714mm2
              Small core is 314mm2
              A conventional generator has a coil dia of 5" but only 1/2" deep with a 4.5" core, the 20" long coils can not get much flux with a tiny magnet at one end. common sense

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              • #8
                18 coiler.jpeg

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                • #9
                  Originally posted by Deuis View Post
                  18 coiler.jpeg
                  Looks good! Any data, details?
                  bi

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                  • #10
                    Originally posted by Deuis View Post
                    18 coiler.jpeg
                    You are better than I am. I have not worked this hard on free energy yet. It looks like an ssg on steroids. Nice going. It is also clear that these coils are exactly like the one you posted and now the data makes more sense. Thank you for responding

                    18 coils should put out a lot of power to a battery pack using a solar panel. I call these converters. I used a solid state SG then sent that power to a cap dump.
                    Last edited by BroMikey; 02-21-2022, 04:21 PM.

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                    • #11


                      Looks good! Any data, details?
                      bi

                      This setup is a 20 magnet rotor, 18 coils.
                      Wheel is 650mm diameter, 3D printed with interchangeable magnet wedges.
                      At 691 RPM'S a single coil is pushing out 180V pk-pk at 230hz with a 10mm air gap.
                      The 4 capacitors on the front board at 60,000uf at 80V and I have to limit it with the rheostat or I will exceed the voltage without discharging.
                      Standard Ohms law calculations tell me its putting out 16w of power, however the rheostat (rated 280w) is sitting at 90 degrees Celsius.
                      While using a resistive load energy recovery is at 76%
                      Data is very raw at the moment but shows promise.

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                      • #12
                        Some more interesting data.
                        Finally my Capacitors (12 of 18 anyway) turned up.
                        So with 2/3rds of coils having Caps across the coil collecting the spike, output went up 815% while efficiency went up 13%.
                        The peak to peak voltage is the same equivalent without the capacitors.
                        While I haven't timed it yet the machine at 273 RPM's is charging the Cap bank faster and higher than at 691RPM's without capacitors even though pk to pk waves are 47V vs 100V.
                        Highly interesting is that even though the coil pk - pk wave is 47V (oscilloscope) its charging the capacitors way up past 80V before I had to shut it down (caps rated 80V).
                        I also had to slow the machine down 5% lower than my usual minimum speed tuned for resonance.
                        So much to unpack.
                        Last edited by Deuis; 03-06-2022, 05:29 AM.

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                        • #13
                          Originally posted by BroMikey View Post
                          All north magnets give little output. You need N S N S to have a motor or generator

                          This proves that point, you need 2000-4000rpm and you need 1mm airgap not 1/4"

                          That coil should put out hundreds of volts. Cores need a magnet 50% wider to give a good dutycycle so a 1" core needs a 1.5" magnet or ever 30% surface area is better than 3/4" cores and 3/4" magnets. A 1.1" core should have 1.25" magnet
                          No its currently running at 273RPM's or 9.28metres per second or 30.44 wrist - elbows per second in murican.
                          Air gap is now 10mm.
                          Air gaps and rpm's are only parts of the whole.
                          As for Magnet sizes any magnet wider than the core will produce more drag than if equal in this design, i've made up for this by depth and hybridised magnets.
                          Last edited by Deuis; 03-06-2022, 01:46 AM.

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