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Author Topic: Oscillating sine wave LC tank magnet motor.  (Read 132293 times)

synchro1

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Re: Oscillating sine wave LC tank magnet motor.
« Reply #210 on: September 14, 2015, 10:38:40 PM »
This drain motor autopsy video gives the viewer a good close look at the U core and series coils:


https://www.youtube.com/watch?v=wDSJ4_0bbw8

synchro1

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Re: Oscillating sine wave LC tank magnet motor.
« Reply #211 on: September 15, 2015, 10:48:38 AM »
This synchronous motor begins to source it's own strengthened oscillating sine wave output when the coil cores are linked in series. The resonance doubles in amplitude when the second pair of coils are connected serially. The "twin coil" motor is made from a widely manufactured synchronous universal motor that anyone can buy two of, disassemble and reconnect the way Chaniotakis shows in his videos.

This motor may lower utility bills around the world for everyone, connected to an alternator and placed between the wall socket and a heavy duty appliance! Save the polar bear!   

synchro1

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Re: Oscillating sine wave LC tank magnet motor.
« Reply #212 on: September 15, 2015, 01:35:43 PM »
Hooking a twin core coil drain motor to a drain alternator should flop over and self loop. This motor generator would need an additional load. The motor generator should power itself while illuminating an incandescent bulb.

Two light dimmer switches, one for the wall socket and the other for the drain alternator would help phase the current transfer in gradually. The alternator dimmer switch would act as a load, dissipating the excess power in heat. Good enough for the test. Naturally, the alternator would need A.C. (Diac) diodes to protect it from the wall current.
« Last Edit: September 15, 2015, 07:19:35 PM by synchro1 »

synchro1

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Re: Oscillating sine wave LC tank magnet motor.
« Reply #213 on: September 15, 2015, 07:17:53 PM »
"The Diac's behaviour is bi-directional and therefore its operation occurs on both halves of an alternating cycle".

When the alternator output amperage equals the initial input, the power plug can be removed from the outlet. It wouldn't be a good idea to feed extra power to the motor in self loop. The rheostat should begin to grow warm and eventually could be replaced by a load.

synchro1

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Re: Oscillating sine wave LC tank magnet motor.
« Reply #214 on: September 16, 2015, 09:10:04 PM »
The "Flop" cuts current from the wall to the coil, but it can't do anything to eliminate the current that's already in the coil so when the additional load from the alternator appears suddenly on top of it, a double charge is present. That's why a gradual phase in is superior.

The two dimmer switches need to be operated simultaneously and in balance. One opening clockwise and the other closing counterclockwise, in mirrored opposition.   

Let's say you turn the wall input down to a barely measurable amount of power, but not completely off, then place satellite magnet rollers next to the two spinning drain rotors. What effect would the satellite rollers have on the reduced microwatt level input?

We could get the same "Lenz Free" advantage just by spinning a naked cylinder rotor with two satellite rotors on each side with output coils around them.

let's say you slow the satellite rotor with hand friction. Would the drag on the slowing satellite rotors exert any back drag on the
prime rotors? We all know the answer is no! So, we can output power from them completely "Lenz Free" with practically no rise in input what-so-ever.

synchro1

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Re: Oscillating sine wave LC tank magnet motor.
« Reply #215 on: September 16, 2015, 10:11:29 PM »
I explained to everyone why "Lidmotor's" Maggie is a "Lenz Free" alternator. Sure there's Lenz Drag inside of Maggie's core from the rotor magnet, but there's no drag from Maggie's spinning magnet rotor back on the prime mover. On the contrary, Lidmotor measured a drop in input to the prime power rotor while spinning the satellite rotor.

Four tub rotors, two joined end to end to make two satellite rotors with a window coil around the perimeter for output would not cause a rise in the input on any prime spinner rotor, regardless of the power source. Spinning magnets can only exert the force of acceleration between themselves, and not the reverse force of deceleration.  Stopping one spinning magnet rotor has no effect on slowing an adjacent rotor, but spinning it faster will speed the other one up! A one way ratchet latch!   

synchro1

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Re: Oscillating sine wave LC tank magnet motor.
« Reply #216 on: September 17, 2015, 12:39:04 AM »
Chaniotakis drives an alternator rotor with a magnet spinner on his "Eleman" motor generator. He connects a load and shows a COP of 2. What's going on there?

Magnets work like a pedal clutch in reverse direction. When the drag shows from the load, and the alternator rotor slows down, the alternator rotor "Declutches" from the power rotor.

Assuming Lidmotor's measurements were correct, and the satellite spinner reduces input draw, when we stop or slow the satellite spinner down, the prime mover losses the satellite assistance. This will help explain why the input rises a little bit in the "Elemen" video by Chaniotakis where the COP doubles! The prime mover looses the satellite assistance when the satellite "Declutches", but back drag is completely missing.

The alternator rotor begins surfing the prime rotor's "Flux Wake" and not drawing additional input.

synchro1

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Re: Oscillating sine wave LC tank magnet motor.
« Reply #217 on: September 17, 2015, 01:30:50 AM »
We can marry Chaniotakis's "Elelemen" satellite rotor to the sine wave tank looper by shaving the plastic pump housing from the top of the drain motor. We can mount bearings for one overhead rotor with the bearings from another motor mounted on the end nipples. We can wind the window coil to generate 120 volts. This output could also be directed back to source at 60 hertz through a third dimmer switch and Diac. The matching frequencies would prevent any unwanted "Hetrodyning".

synchro1

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Re: Oscillating sine wave LC tank magnet motor.
« Reply #218 on: September 17, 2015, 02:47:01 PM »
Five synchronous drain motors. Two for the linked cores power motor, one for the alternator and another two for the satellite generator.

Two motors would supply the parts: The linked magnet rotor tubes, two end bearings and two coil cores. Now instead of a custom wrapped window coil for output, it would be better to position the two extra drain motor coil cores around the twin spinner to draw completely synchronized output from the satellite rotor. We now have all of the five motors and all the part included in the final design. This would triple the output and allow the self runner to illuminate a powerful flood lamp.

This whole design can run fine lying over on one side.

Reactive power from the grid may be needed to streamline the sine wave. It may not be possible for the unit to run without the wall plug connection. This is an unmetered power factor; The motor may draw zero real power but still need the connection.

synchro1

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Re: Oscillating sine wave LC tank magnet motor.
« Reply #219 on: September 17, 2015, 04:24:16 PM »
Finally, three motors, two core coil's in tandem and the third disassembled and run as a satellite for the loop alternator. Driving a drain motor backwards by axle as an alternator would produce "Lenz Drag". Running the loop alternator from a magnetically clutched satellite rotor would eliminate it.

synchro1

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Re: Oscillating sine wave LC tank magnet motor.
« Reply #220 on: September 18, 2015, 09:23:44 AM »
 A diametric tube magnet on bearings, powered by a string and drop weight off an attached pulley, will clock a spin time. Add a second spinner with the same pulley and drop weight next to it and start them together. How does the spin time of the two adjacent magnets compare to the spin rate of just one?

This test can only produce one of three results: The tandem spinners will, 1.- Spin longer; 2.- The same rate, or; 3.- Slower then the single tube. Which answer would you choose?

The second test involves spinning the two adjacent tubes with the string weights simultaneously, then slowing one with finger friction to see what kind of effect that has on the spin rate of it's twin!

What test results would you choose? The sister magnet spin rate will; 1.- Slow down; 2.-Speed up , or; 3.-remain unchanged.

Extended spin time of two tube magnets spinning longer side by side would amount to "free energy" compared to the slower spin rate of one tube, right?

synchro1

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Re: Oscillating sine wave LC tank magnet motor.
« Reply #221 on: September 18, 2015, 11:30:16 AM »
Self propulsive "Hatem Magic" video:

https://www.youtube.com/watch?v=KJHlwJ1gsms

Watch "Hatem" multiply power with magnetic cogging:

https://www.youtube.com/watch?v=3UJZ9hDQnyA

Hatem has one motor and four satellite alternators. What happens when he places one of these satellite alternators under load, and the magnet rotor begins to slow down from the "Lenz Drag"? Does the prime mover feel any drag effect back from the slowing alternator magnet rotor?

This rule of magnets should appear in bold strike on the first page of every physics text book, but is hardly ever recognized. The power rotor can only effect the forward motion of the satellites and vice versa. The satellite rotors can not effect the power rotor in the reverse direction and slow it down! Like a spring cog on a clock gear!

This is also the operating magic behind the Chaniotakis OU COP results with his "Elemen" motor. The power rotor acts like a "Spring Cog" and instantly and completely "Declutches" the satellites when they slow down from drag. This delivers "Zero Lenz Drag" back on the power rotor. The load can't possibly raise the input.

tagor

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Re: Oscillating sine wave LC tank magnet motor.
« Reply #222 on: September 18, 2015, 01:22:14 PM »
Self propulsive "Hatem Magic" video:

Watch "Hatem" multiply power with magnetic cogging:

https://www.youtube.com/watch?v=3UJZ9hDQnyA


sorry but the  "Hatem Magic" does not work but she under multiply power easely

synchro1

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Re: Oscillating sine wave LC tank magnet motor.
« Reply #223 on: September 18, 2015, 01:43:42 PM »
sorry but the  "Hatem Magic" does not work but she under multiply power easely

@Tagor,

Let's say Hatem magnetically coupled an additional 15 alternator rotors on top of his existing 4. Do you think his power motor would draw additional input? What if someone were to tell you that the input would drop?

synchro1

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Re: Oscillating sine wave LC tank magnet motor.
« Reply #224 on: September 18, 2015, 01:50:57 PM »
A simple way to test Hatem's cogging method would involve 3 magnet spheres and three toroid coils. All three coils would need a power circuit, but the outer two would flop over for output when their satellite spheres were up to speed and driven by the center sphere's magnetic coupling alone.

The satellites may speed up over CMF and propel the central rotor with "Lenz Reverse" acceleration and deliver a drop in input when the load's connected.