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Muller generator replication by Romerouk

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  • Hey Rod,

    I was just thinking, if your acceleration on all the coils happened at the same starting RPM, perhaps the best process to test if they are all adding to the system would be something like this...

    1- Get the rotor up to the ideal speed with all coils open.

    2- Short the first coil and see the acceleration.

    3- Back some power off the front runner. (just enough to return you back to the ideal starting RPM, or a little above that)

    4- Short the next coil.

    5- Again watch the acceleration and then back off the dirve power to return to the ideal starting RPM.

    6- Continue this process until all coils are shorted.

    7- Lastly: Measure each coil output and compare to the input on your Outrunner.

    --------

    If you could measure total power out and in between each stage that would be ideal.

    Note: It may be easier than this, but if you are having problems getting the coils to work together, this process may help.

    If the coils accelerate at different speeds you might be able to do it by engaging the lowest RPM coil first and then working your way up.

    You are a good man Rod.
    Last edited by Shadesz; 09-27-2011, 07:34 PM.
    Trust your own instinct. Your mistakes might as well be your own, instead of someone else's ~BW~ It's kind of fun to do the impossible ~WD~ From now on, I'll connect the dots my own way ~BW~ If I shall be like him, who shall be like me? ~LR~ Had I not created my whole world, I would certainly have died in other people’s ~AN~

    Comment


    • @ All, it's been a good day, plenty of new/old stuff to explore

      Comment


      • Newbie question,

        No magnets involved... If you apply a current through one wire on a bifilar coil, will the second wire pickup a constant current or just a spike as the current in the first wire is growing? It would have to be a short spike wouldn't it?
        Trust your own instinct. Your mistakes might as well be your own, instead of someone else's ~BW~ It's kind of fun to do the impossible ~WD~ From now on, I'll connect the dots my own way ~BW~ If I shall be like him, who shall be like me? ~LR~ Had I not created my whole world, I would certainly have died in other people’s ~AN~

        Comment


        • If it was an alternating current then the second wire will have potential power via induction, just like transformer action and this would be constant.
          Last edited by qvision; 09-27-2011, 10:13 PM.

          Comment


          • Originally posted by qvision View Post
            If it was an alternating current then the second wire will have potential power via induction, just like transformer action.
            ok sweet, but if it was DC the wire would only pick up the initial spike, correct? Sorry, I am working on that phase shift explanation, and want to make sure I have it right.



            Oh, btw. I think I know why we can't get the 180 degree phase shift. But I think I may have a way to do it too... but why would we want voltage with no current?

            Anyways, currently it appears like we don't have any phase shift at all in our pickup coils. Well kind of. I'll explain it when I get the idea better developed.
            Last edited by Shadesz; 09-27-2011, 10:21 PM.
            Trust your own instinct. Your mistakes might as well be your own, instead of someone else's ~BW~ It's kind of fun to do the impossible ~WD~ From now on, I'll connect the dots my own way ~BW~ If I shall be like him, who shall be like me? ~LR~ Had I not created my whole world, I would certainly have died in other people’s ~AN~

            Comment


            • Originally posted by Shadesz View Post
              Hey Rod,

              I was just thinking, if your acceleration on all the coils happened at the same starting RPM, perhaps the best process to test if they are all adding to the system would be something like this...

              1- Get the rotor up to the ideal speed with all coils open.

              2- Short the first coil and see the acceleration.

              3- Back some power off the front runner. (just enough to return you back to the ideal starting RPM, or a little above that)

              4- Short the next coil.

              5- Again watch the acceleration and then back off the dirve power to return to the ideal starting RPM.

              6- Continue this process until all coils are shorted.

              7- Lastly: Measure each coil output and compare to the input on your Outrunner.

              --------

              If you could measure total power out and in between each stage that would be ideal.

              Note: It may be easier than this, but if you are having problems getting the coils to work together, this process may help.

              If the coils accelerate at different speeds you might be able to do it by engaging the lowest RPM coil first and then working your way up.

              You are a good man Rod.
              Hello to all
              I have just woke up and read all the posts
              looks like I got a busy day on the bench
              some great ideas have been put forward I will start testing after breakfast.
              We have good work group of guys here. this is always how OU was going to be researched.

              Comment


              • LOL Australia going to waking up as i go to bed, that's the trouble with having a Global Team i guess

                @ Shadesz,i agree that with DC, unless it was a square wave, then only the spikes would be picked up.

                And having voltage without current is a good thing - if it's high voltage and could be stepped-down.

                Comment


                • Q-vision,
                  Thanks for the confirmation.

                  @all,

                  I can't wait to finish and post this inductor phase shift presentation! It is so simple! It makes total sense why there is a 90 degree phase shift in ac current. And why, when you charge an inductor with dc, there is high voltage and zero current, and how the current increases in a logarithmic way on a dc induction circuit. Me thinks you will like the slide show I am working on.

                  Not only that, but I seriously think I know how we can remove half of lenz drag with one simple, simple circuit! (someone has already mention this on one of these threads, but I don't think any picked up on it)...and not only that, the simple circuit should allow us to easily pull a load off the generator coil while still removing half of lenz! Not only that, but if you get your magnet spacing just right, you could use the remaining 1/4 of the lenz wave to pull in your next magnet! Hence, it is so clear to me how we can reduce lenz by 75%! Imaging a generator with only 25% of lenz! Of course this is all theory currently.

                  I'll try to get this first part (inductor phase shift) posted tonight.
                  Trust your own instinct. Your mistakes might as well be your own, instead of someone else's ~BW~ It's kind of fun to do the impossible ~WD~ From now on, I'll connect the dots my own way ~BW~ If I shall be like him, who shall be like me? ~LR~ Had I not created my whole world, I would certainly have died in other people’s ~AN~

                  Comment


                  • I doubt I can stay up long enough to finish this today so I figured I would give you a teaser of what I am working on. Here is a picture that I made for the presentation.

                    I have not been able to find any real explanation of the phase shift in an inductor, nor an explanation of how an inductor charges with a dc current. The following is how I believe it charges with a DC current.

                    As I finish my presentation I will show how that relates to the 90 degree phase shift using AC current (which I now realize we are NOT seeing in our generator coils, yet).

                    Anyways, here is the teaser picture. I wonder if anyone can figure it out just by looking at this???



                    Happy building!
                    Last edited by Shadesz; 09-28-2011, 06:53 AM.
                    Trust your own instinct. Your mistakes might as well be your own, instead of someone else's ~BW~ It's kind of fun to do the impossible ~WD~ From now on, I'll connect the dots my own way ~BW~ If I shall be like him, who shall be like me? ~LR~ Had I not created my whole world, I would certainly have died in other people’s ~AN~

                    Comment


                    • The Coils Driving Eachother

                      Hi

                      Well, as I investigated this matter much further I found out it might not be as simple as connecting all of the coils parallel, because at any point when one magnet is aligned, half the other magnets must be attracted and half the other must be repelled in order to make them drive the rotor, Thanks to Shadez:



                      For simplicity we assume that the magnets are in the same pole configuration, like N-N-N or S-S-S. A somewhat sophisticated circuit design is needed that can control the coils. When one coil is generating one half must be connected to it in way that it repels the magnets and the other half of them must be connected in a way that attracts the magnet, so that you get your rotor being driven by that coil, now we can see why muller was using advanced circuitry. It is better to control the coils by a micro-controller that we can selectively program it to make rearrange the coils at each phase, which we have got 15 phases, one for each coil in the picture above.

                      It is also obvious from all of the tests we have done before, that when you connect 15 coils in parallel, and while one is driving the other 14, what happens is that, the resistance becomes minimum and the phase shift gets much much closer to 90 degrees, so that the drag becomes almost non-existent to the driving coil. The other beauty is that when you switch off each coil you can gather the back spike at an output also.

                      To test this effect we can connect two consecutive coils parallel to each other, by a diode, that make only one coil be able to drive the other, so that it avoids backlash. Or even this can be extended to half of your coils where one of them drives the rest, simply by connecting it via diodes to the other coils, in that half. Therefore when one coil is generating it makes its current circulate into the other coils that are ready to be attracted to the core. The other half must be connected in a way that be repelled by the core as they are ready for repulsion. if We connect all of them parallel to eachother then they will cancel out and while one will help the other move forward the other will help it move backwards.

                      This is very promising.

                      Elias
                      Last edited by elias; 09-28-2011, 09:19 AM.
                      Humility, an important property for a COP>1 system.
                      http://blog.hexaheart.org

                      Comment


                      • Originally posted by elias View Post
                        Hi

                        Well, as I investigated this matter much further I found out it might not be as simple as connecting all of the coils parallel, because at any point when one magnet is aligned, half the other magnets must be attracted and half the other must be repelled in order to make them drive the rotor, Thanks for Shadez:

                        For simplicity we assume that the magnets are in the same pole configuration, like N-N-N or S-S-S. A somewhat sophisticated circuit design is needed that can control the coils. When one coil is generating one half must be connected to it in way that it repels the magnets and the other half of them must be connected in a way that attracts the magnet, so that you get your rotor being driven by that coil, now we can see why muller was using advanced circuitry. It is better to control the coils by a micro-controller that we can selectively program it to make rearrange the coils at each phase, which we have got 15 phases, one for each coil in the picture above.

                        It is also obvious from all of the tests we have done before, that when you connect 15 coils in parallel, and while one is driving the other 14, what happens is that, the resistance becomes minimum and the phase shift gets much much closer to 90 degrees, so that the drag becomes almost non-existent to the driving coil. The other beauty is that when you switch off each coil you can gather the back spike at an output also.

                        To test this effect we can connect two consecutive coils parallel to each other, by a diode, that make only one coil be able to drive the other, so that it avoids backlash. Or even this can be extended to half of your coils where one of them drives the rest, simply by connecting it via diodes to the other coils, in that half. Therefore when one coil is generating it makes its current circulate into the other coils that are ready to be attracted to the core. The other half must be connected in a way that be repelled by the core as they are ready for repulsion. if We connect all of them parallel to eachother then they will cancel out and while one will help the other move forward the other will help it move backwards.

                        This is very promising.

                        Elias
                        Good job!

                        Now you may want to consider what we discuss in this thread if you are considering using a generator coil to power a different drive coil that uses repulsion.

                        I also think there is some promise to it, if designed correctly.
                        Trust your own instinct. Your mistakes might as well be your own, instead of someone else's ~BW~ It's kind of fun to do the impossible ~WD~ From now on, I'll connect the dots my own way ~BW~ If I shall be like him, who shall be like me? ~LR~ Had I not created my whole world, I would certainly have died in other people’s ~AN~

                        Comment


                        • Half of the Answer is knowing the right Question

                          Comment


                          • Originally posted by Shadesz View Post
                            Good job!

                            Now you may want to consider what we discuss in this thread if you are considering using a generator coil to power a different drive coil that uses repulsion.
                            some interesting work you are doing here.
                            I am still trying to get a picture of what you see in your concept.
                            I will read it over and study your diagram. I get what you want to happen but I am not sure about it in practice.
                            can you present an electrical schematic. I read need a circuit diagram

                            good job.. You really are working very hard very keep up the good work.
                            I will be following your idea with great interest

                            Comment


                            • My motor today

                              test so far.

                              No coils drive motor consumption. 23.54 volts 4810 mill Amps. 2802 RPM

                              with coils fitted no load 23.25 volts 4715 mill Amps. 2792 RPM

                              all coils fitted 4 coils shorted 23.41 volts 4720 mill Amps. 2820 RPM

                              Comment


                              • Originally posted by toranarod View Post
                                My motor today

                                test so far.

                                No coils drive motor consumption. 23.54 volts 4810 mill Amps. 2802 RPM

                                with coils fitted no load 23.25 volts 4715 mill Amps. 2792 RPM

                                all coils fitted 4 coils shorted 23.41 volts 4720 mill Amps. 2820 RPM
                                That is a really good result! less watts than coilless config and faster RPM. Have you tested shorting your coils with diodes? You can self drive your generator like this:





                                You should use the proper polarity for your driver coils, and also use diodes between the generator coil and driver coils to prevent backward current flow. See if you can get a much higher RPM. If you use larger magnets you can drive more coils.

                                Elias
                                Humility, an important property for a COP>1 system.
                                http://blog.hexaheart.org

                                Comment

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