Discussions on Free Energy Circuits for Agrarian Use ----------------------------------------------------------------- -- Uncited quotes via Mike Goldman The circuit pictured is not theoretical, it is a basic inverted joule thief using a bifilar pancake coil. As mathematically proven by the fact that the image is generated by the simulation, and demonstrated by actual fact of easily replicable experiment, this is a functional design. What is shown is a 1.5V source powering 9V of LEDs. This is by no means its limitation nor is this an efficient design compared to more complex geometries but it demonstrates time-compression of the supplied power to generate impulses of arbitrary power. While the LEDs are in fact turning on and off, this occurs at such a high frequency as to appear solidly on. If you take two of those LEDs out of the circuit shown here and replace it with a 6V battery, you will see that it is also supplied with charge from the 1.5V source without changing anything in the voltage or power requirements of the supply. But because the charges are impulses without constant amps, the charging battery which undergoes endothermic electrolysis is forced to absorb its reaction heat from the ambient environment. Thus a thermal collector cell is established. facebook/events/1383641701892236/ To make a bifilar pancake coil for the basic circuit, take five feet of calculator paper, fold it in half lengthwise and then fold each half over again so it makes a long W, or two channels. Use double sticky tape to affix wires along the channels with a bit sticking out the ends for connections. Fold closed, and fold over in half lengthwise again to keep the wires from slipping out while rolling the coil, taping the edges together. Now roll it and tape to keep from unrolling. You can apply super glue at this point to keep it from coming untaped later. Cost: pennies. Time: maybe a half hour. You can see Orlons coil in his photo on the workshop page. Best to get two colors of wire to keep them easy to distinguish. Once the coil is rolled you connect the inner end of one wire to the outer end of the other. This midpoint is the point where input power is connected. The output ends are then connected as follows: The outer connection to a 1K resistor to the base of a transistor (BJT), the inner connection to the collector of the transistor. The collector can then be connected to the positive of an LED, the negative of the LED connected back to the midpoint of the coil, and the emitter of the transistor goes to the ground or negative of your input power. And thats the whole circuit. Pertaining to Motor Circuits -- The Angus Effect ------------------------------------------------------------- https://youtube/watch?v=fJl0TO_aR6M The PMH core used here in this device is analogous to the top loading coils on my Ram Pulsars, albeit without moving parts it is a rotating magnetic field array in my designs. I prefer to call them, as they are, flux capacitors, Inasmuch as their function is to capacitate magnetic flux. Ed Leedskalnins Secret of the Egyptians ----------------------------------------------------- https://youtube/watch?v=hhp6HsdC3Eo Just for some perspective that Im not the only one to have made the observation. But I really like solid state so much better. Pertaining to Design and Function Discussion -------------------------------------------------------- (mostly to the basic circuit in the image, after the first exchange) Mike: Teslas bifilar pancake coil when used with a self-connected loop on one wire is also a flux capacitor. When you pulse across the other wire you create a magnetic flux that rotates and returns on the next pulse adding to its power. Me: Amazing...so the magnetic flux will eventually continue adding to the charge without outside input? Mike: Yes, but of course this technique isnt available to conventional DC and AC circuits. If you look at the Ram Pulsar simulations you will see that not only do I time-compress the voltage but the amps out are greater than the amps supplied, and the work done on the loading coils is free or actually beneficial, because it increases the compression and frequency of the charging pulses. Some other guy: Free energy? Something for nothing? A violation of the laws of thermodynamics? Really? Please advise. Mike: The sun shines, David, and it doesnt cost a thing. Classical thermodynamics only applies to closed systems. These circuits when configured to charge a battery, for instance, will stimulate an endothermic, electrolytic reaction. In short, they absorb ambient infrared radiation to store amperage, constantly provided by the sun and earth. It is also free in the sense of freedom, like free software, these designs are being given for all to use and share freely. Yet another guy: It needs a battery. Mike: It needs a source of input DC at 0.75-1.5V, which can be a battery, but it can also impulse charge an output battery of 6V or more, thus recovering the input charge (minus minimal heat loss) with the addition of ambient heat absorption in the electrolytic reaction, for a gain in overall energy (stored energy - spent energy = harvested energy). Much more efficient circuits than what I am showing are possible and can use much lower input power with much greater harvesting potential, but requiring more complex coil geometry and multiple transistors. This basic circuit will be easier for everyone to understand and replicate by hand and it works to demonstrate the principle of impulse power generation. Fyi, heres an example of a super-efficient circuit: Ram Pulsar Design ------------------------ Im into the idea of growing food and stuff with these circuits. Heres a more advanced one than the basic workshop model presented above. (than the circuit in the image) facebook/photo.php?fbid=10201933117181939&set=a.1227209352757.35362.1004753919&type=1&theater
Posted on: Fri, 07 Mar 2014 14:23:00 +0000
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