|
Info much appreciated - thankyou . Good to know there's a formula for this.
Am I right in saying that motor run capacitors could be used for this purpose of looping the output as well as providing "useful output" alongside a "comparator" circuit, or similar? - I have a 400v / 470uf run cap that I intend to capture the output with (Got my eye on 6x 10F 80v caps, to make the comparator Bedini used, 80v/60F (he used 4x 15F's), although they're pricey) - could I perhaps build a custom buck converter to take that 400v and step it down to a voltage acceptable to the circuit (Having now done more testing, 12v causes the coil to heat up - I'd consider using maybe 9 or lower - 24v gives a serious boost to the output ("1200"v+ from around "300v" on 12v) but the coil gets way too hot after a few minutes (100c+) I assume because the dipole is broken for less time in each cycle, due the the higher voltage, resulting in a lower efficiency in this design and more hysteresis, although this is assumption. perhaps it could be designed for 24v or higher? or maybe I just need to adjust the input waveform / duty cycle to minimize current?
Not sure the meter is reading true results , as John Bedini said, don't trust the dmm's, but I have no other options atm, except lighting a CFL bulb which requires 400v to light up - which it does, brightly, when connected between mosfet D&S.
It's an 18w bulb so should be pulling 1.5A ish from the battery at 12v, which it is not (70ma. draw, unaffected by bulb) Which to me says that it is not acting purely as a crude boost - buck.
Plus then there's the mechanical work being done (rotor spinning at 2.2k.rpm) , which Bedini said was actually the "free" energy in his designs, the charging aspect being merely an efficient and logical thing to do, seeing as a dump would be needed otherwise to protect circuitry.
If I can link up a gearing reduction mechanism and an efficient B/L generator to the rotor to get high RPM, I may well be looking at a gain here.
As I understand it, when you burn oil/gas/"spit neutrons" etc and spin a turbine, the forces exerted by combustion only provide the condition under which magnet fields rip past coil fields, and churn up the ether.. going by that logic, If I am having X amount of mechanical torque being provided by x/2 amount of input, then I have elbow room for generation inefficiencies. "Kerklonkity" is OK by me if it's O/U, lol
I have discovered that this design will spin TWO rotors, one S out and one N out, with the same coil and not affecting input current, so I can get double the mechanical output, once configured. Then there's the coil G & H fields (I think) that Bedini was also capturing with his 10 coiler, using that big copper rod bent around the back of it.. Also , the HDD platter has a BL motor in it, that I have wired up ready to rig a circuit for harvesting its' output also via transient spikes, using an Imhotep style pc fan circuit. If I collect the energy from these peripheral sources and collect them efficiently in order to power the mechanism, with gain, then this design is obviously well worthy of replication and thorough investigation by more capable persons than myself- THAT,I would very much like to see.
I will upload a thorough report on progress soon, in the hopes that it garners some interest and I can get some feedback & support.. Lots on atm, life gets in the way of the work.
Currently doing the first actual test, the way that is implied in the PK video. Charging 3 batteries instead of 7 as 4 units turned out to be bunk and voltage goes to nothing immediately upon loading (8 yr old and badly stored)
However this should not affect the test in any way, and the video says "up to 7 batteries" and voltage between D&S in operation is stable regardless of how many are connected. (open circuit reads as much more, as you'd expect)
I really appreciate any feedback I get on this.
|
Author
Topic: Patrick Kelly "A Tiny Generator" (Read 12005 times)
