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Author Topic: Oscillating sine wave LC tank magnet motor.  (Read 132309 times)

synchro1

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Re: Oscillating sine wave LC tank magnet motor.
« Reply #195 on: September 08, 2015, 08:59:30 PM »
12V~40V 10A Pulse Width Modulation PWM DC Motor Speed Control Switch.

This D.C. motor controller costs $9.92. This beats an A.C. frequency driver in cost by a long shot.

Two of these alternators driven by the D.C. motor, and speed controller from a twelve volt battery could power appliances; and act as a powerful emergency back up power plant in case of outage.

synchro1

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Re: Oscillating sine wave LC tank magnet motor.
« Reply #196 on: September 10, 2015, 03:28:38 PM »
It's worth having a look at Gerard Morin's how to video:

https://www.youtube.com/watch?v=dEaSvtjoAMk

Morin's drain motor diametric tube magnet is the same as the one JLN used in his "Lenz Delay" video. The difference is JLN had a large ferrite core to slide the output coil back and forth on to achieve "Lenz Delay". There's no way Morin can achieve "Lenz Propulsion" without the adjustable core and without a D.C. motor that can turn at tens of thousands of rpm's for high air core CMF. He maintains the drain alternator runs with less resistance as he speeds it up. Pretty non-specific.

The other thing is he's running his D.C. motor with only an on off switch. A low slot platform compared to the turntable alternator and high speed D.C. speed control version we have under examination. The turntable stators function as JLN's ferrite core for "Lenz Delay". 
« Last Edit: September 10, 2015, 10:06:56 PM by synchro1 »

synchro1

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Re: Oscillating sine wave LC tank magnet motor.
« Reply #197 on: September 11, 2015, 01:14:16 PM »
I watched all of Morin's videos and most of his replicators videos, and the D.C. motor always draws more amps every time the tester connects the alternator load. Never once have I seen the drain motor alternator show any signs of "Lenz Delay". The coils are fixed in position around the steel core. The core would have to allow the coils to move to control the delay of the "Reflected Magnet Wave".

Morin's approach of adding magnets to the sides of the D.C. motor is proven to help lower input and raise output. Combining this advantage with a "Lenz Reversal Effect" in the alternator might help it go over the top. A turntable alternator can transform it's A.C. voltage to 65,000 through an Ozone transformer just as easily as the drain job. The real dividends come from controlling the alternator drag, something the turntable stator model should be able to do better. The microwave turntable motor has a six or eight pole rotor. This yields a minimum of a 3 to 1 R.P.M. ratio, so if CMF were 12K in the diametric drain job, the turntable rotor could do it at 4K.

The drain motor alternator has a CMF, but it's way to high a spin rate for safety. The synchronous washtub motor has a running speed of 3000 rpm, while the turntable motor only 600. It's traveling five times as fast for the same 60 hertz frequency! That makes washtub CMF five times the turntable R.P.M. right off the bat.

The combination of the D.C. motor "Booster Magnets" and the "Lenz Reversed" alternator" has high self loop potential.
« Last Edit: September 11, 2015, 04:46:05 PM by synchro1 »

synchro1

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Re: Oscillating sine wave LC tank magnet motor.
« Reply #198 on: September 11, 2015, 06:23:00 PM »
Compare the over sized two pole rotor above Morin has to spin five times as fast as the tiny six pole below. That's at least twenty five times the work! Five times the mass at five times the speed makes it pretty hard to achieve CMF with the D.C. motor Morin's powering his alternator with.

synchro1

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Re: Oscillating sine wave LC tank magnet motor.
« Reply #199 on: September 11, 2015, 09:20:28 PM »
George Chaniotakis runs a synchronous motor with a second core in parallel acting as an electro magnet and achieves awesome input reduction:

Amazing High Efficiency Motor:

https://www.youtube.com/watch?v=FVeOF53i8-E

synchro1

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Re: Oscillating sine wave LC tank magnet motor.
« Reply #200 on: September 11, 2015, 09:21:16 PM »
This synchronous drain motor with the electro magnetic "Siamese Core" of Chaniotakis's looks like a better deal then the D.C. motor with the permanent magnets attached. Driving a turntable rotor at 3000 R.P.M. would rotate the six pole at an (18,000 hertz frequency) a speed that is more realistic as a CMF threshold. His electro-magnet synchronous drain motor is running on practically nothing.

I wrote George Chaniotakis a personal message and asked him (Eleman) if he would try the carousel motor as an alternator with his new motor setup.

synchro1

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Re: Oscillating sine wave LC tank magnet motor.
« Reply #201 on: September 11, 2015, 10:06:40 PM »
Mispost!

synchro1

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Re: Oscillating sine wave LC tank magnet motor.
« Reply #202 on: September 12, 2015, 12:32:54 PM »
Chaniotakis is running his D.C. motor backwards as a nearly "Lenz Free" generator in this video. Look at the magnet stack on the generator!

https://www.youtube.com/watch?v=Q1HqQduHrl4

synchro1

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Re: Oscillating sine wave LC tank magnet motor.
« Reply #203 on: September 12, 2015, 12:58:20 PM »
Here's a picture of the kind of "Askoll Drain Motor" Chaniotakis uses: The core is flat on the bottom. He just connects a sister "Coil Core" in parallel and places a "Laminated Keeper" over the second core U and Voila!

There's no mystery about how Chaniotakis gets his amazing efficiency by yoking a second identical core magnetically and their coil's in parallel. His synchronous motor turns super efficient with this very simple modification.

Spinning the six pole turntable rotor at 3000 R.P.M. would generate 600 volts with a Frequency of 18,000 for CMF threshold to achieve "Lenz Reversal". We can pack them back to back.

synchro1

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Re: Oscillating sine wave LC tank magnet motor.
« Reply #204 on: September 12, 2015, 05:08:22 PM »
Chaniotakis demonstrates the "Leedskalnin PMH" effect in this video with his Siamese coil cores:

https://www.youtube.com/watch?v=uGv4fLyWfao

The input reduction Chaniotakis achieves with the addition of the second core is awesome! This is the single most impressive "Free Energy" effect I've ever seen.

synchro1

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Re: Oscillating sine wave LC tank magnet motor.
« Reply #205 on: September 12, 2015, 08:17:20 PM »
                                                Electromagnetic Attraction "dual contact".

George has the coil cores in parallel for the PMH test and in series for the efficiency link up. Will anyone hazard a guess as to what's causing the dramatic drop in input? The second coil and core don't need to be in direct contact, a keeper over the second U seems to do the same job! Just what's going on here?

synchro1

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Re: Oscillating sine wave LC tank magnet motor.
« Reply #206 on: September 12, 2015, 08:45:08 PM »
I think the two coil cores are in LL tank resonance, and that the A.C. impedance is close to infinity. The resonance blocks any further A.C. current from passing!

Where does the motor's power come from if it's only drawing 1/40th of an Amp? The resonance perhaps? The oscillating LL sine wave tank frequency is at least up in the kilohertz range. A near RF signal driving the rotor at a sub harmonic of 60 hertz is entirely possible. The tiny amount of power consumed is merely the amount the tank circuit draws to replenish it's losses.

                                                   "An oscillating sine wave LL tank magnet motor".

synchro1

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Re: Oscillating sine wave LC tank magnet motor.
« Reply #207 on: September 13, 2015, 09:58:33 AM »
I need to correct myself; The resonant coils in series would eliminate impedance altogether. How would zero impedance act to lower the input draw? In parallel, the resonant coils would have infinite impedance expressed in Ohms. In series there would no longer be any resistance in the coils at all. What kind of efficiency advantage comes from eliminating resistance altogether like the "Dual Contact" oscillator does?

synchro1

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Re: Oscillating sine wave LC tank magnet motor.
« Reply #208 on: September 13, 2015, 10:34:50 AM »
The sine wave generated by the resonant LL tank has to be oscillating at a much higher frequency then the 60 hertz the rotor's spinning at. How can the higher frequency of the resonant sine wave effect the slower spinning magnet rotor? Just like striking a musical chord! Some deny the legitimacy of this power source.

Chaniotakis is the first experimenter to succeed at demonstrating the spinning power of resonance! This constitutes a major breakthrough. The input's merely replenishing the tank loss while the oscillation's doing the work.

George's drawing nearly a quarter of an amp before he connects the second coil. The input drops ten times while the rotor continues to spin at 3k. That means the resonance begins supplying 90% of the power. This sine wave motor has to be overunity!

synchro1

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Re: Oscillating sine wave LC tank magnet motor.
« Reply #209 on: September 13, 2015, 01:08:31 PM »
The core's each have two coils in series. These coils may resonate between themselves as an LL tank. Connecting a second core in series would turn it into an LLLL tank with half the resonant frequency. right?  Cutting this self oscillating frequency by half may help the tank generated sine wave grab the magnet rotor.

Mating these cores lowers the oscillating frequency by an entire octave. Halving the frequency would double the amplitude, and double the power of the oscillating sine wave.

Chaniotakis connectes the coils in series with the cores apart and the input amps drop in half. That's proof the magnetic force has doubled and effected the rotor because the oscillating sine wave has doubled in amplitude due to the halving of resonating frequency.