Author Topic: Self accelerating reed switch magnet spinner. (Read 291741 times)

synchro1 · « **Reply #480 on:** January 10, 2014, 01:19:36 AM »

@Conradelektro,

You need to wire the specific components I posted to the thread onto the magnet coil and check for spontaneous charge. Once you succeed at that you can move on to testing with the spinning magnet rotor. The charge zone should be located outside the induction zone as tested for with a multi-meter. You can go about this chore at your leisurely pace. You'll probably need to special order the "Tunnel Germanium diode". I'm very impressed with the look of your pancake video, but I never maintained anything about the use of a pancake coil for output purposes.

Everyone knows how good it performs as a wireless power receiver. This is it's function on the "Synchro Coil". I never at any time alleged the Tesla series bifilar coil works better as an induction coil. It was a huge mistake to test my "Synchro Coil" as an induction coil and maintain that it failed to work. The "Synchro Coil" series bifilar is designed to work as a POWER RECEIVER COIL, not an induction coil!

picowatt · « **Reply #481 on:** January 10, 2014, 01:44:38 AM »

Quote from: synchro1 on January 10, 2014, 01:19:36 AM

You'll probably need to special order the "Tunnel Germanium diode".

Can you provide a part number for a "Tunnel Germanium Diode" suitable for operation in the THz band?

PW

Magluvin · « **Reply #482 on:** January 10, 2014, 05:05:39 AM »

Quote from: picowatt on January 10, 2014, 01:44:38 AM

Can you provide a part number for a "Tunnel Germanium Diode" suitable for operation in the THz band?

PW

This is from a document from 1963. Maybe they are better these days.

"
TYPICAL RCA TUNNEL DIODE • switching times to 75 picoseconds • peak currents from 1 milliampere to 220 amperes • broad application capability • gigacycle switciiing speeds

http://www02.us.archive.org/stream/RcaTunnelDiodeManual/Rca1963TunnelDiodeManual_djvu.txt

Mags

synchro1 · « **Reply #483 on:** January 10, 2014, 05:06:46 PM »

@Picowatt and Conradelectro,

try a: 1N3712. In the meantime have a look at this "Leon Dragone Magnet Pump Video". You can see a closeup of the electrolytic capacitor and diode I use. The disk magnets on the coil are the most powerful available on the commercial market.

@Milehigh,

I prove here in this video, that I can generate power without moving magnets over the coil, outside the restrictions of "Faraday's Law". The magnets are in attraction. The coil is pulsed through the reed switch, then power is generated in the coil when the permanent magnet field reestablishes itself inside the coil! I produced this video to demonstrate the viability of the the "Synchro coil" theory you flagrantly scorned! There are no moving "Faraday magnets" in this magnet pump! Dr. Dragone maintained his simple magnet pump was COP>40.

http://www.youtube.com/watch?v=q5WSPMeWGdE&list=TLvfF6ZA57LvV7eDFDeue0XosYGWgsP5s9

Here's a second one with a clear view of the power reading:

http://www.youtube.com/watch?v=jBPKO9qSfGk&list=TLvfF6ZA57LvV7eDFDeue0XosYGWgsP5s9

synchro1 · « **Reply #484 on:** January 10, 2014, 06:32:29 PM »

It occurred to me that if we ran a tickler coil down the center hole of the tube magnets in the "Synchro Coil", and pulsed it, we'd have a virtual the VTA, Vacuum Triode Amplifier, of Floyd Sweet. Floyd reported mega OU COP's!

Quote from Dr. Dragone:

When a permanent magnet is placed inside a coil, and the current in the coil is turned on, the coil's field can aid or cancel the PM's field. If the coil cancels the PM's field, the magnetic energy of this field is lost from the environment. Where does this energy go?

picowatt · « **Reply #485 on:** January 10, 2014, 06:47:01 PM »

Quote from: synchro1 on January 10, 2014, 05:06:46 PM

@Picowatt and Conradelectro,

try a: 1N3712. In the meantime have a look at this "Leon Dragone Magnet Pump Video". You can see a closeup of the electrolytic capacitor and diode I use. The disk magnets on the coil are the most powerful available on the commercial market.

@Milehigh,

I prove here in this video, that I can generate power without moving magnets over the coil, outside the restrictions of "Faraday's Law". The magnets are in attraction. The coil is pulsed through the reed switch, then power is generated in the coil when the permanent magnet field reestablishes itself inside the coil! I produced this video to demonstrate the viability of the the "Synchro coil" theory you flagrantly scorned! There are no moving "Faraday magnets" in this magnet pump! Dr. Dragone maintained his simple magnet pump was COP>40.

http://www.youtube.com/watch?v=q5WSPMeWGdE&list=TLvfF6ZA57LvV7eDFDeue0XosYGWgsP5s9

Here's a second one with a clear view of the power reading:

http://www.youtube.com/watch?v=jBPKO9qSfGk&list=TLvfF6ZA57LvV7eDFDeue0XosYGWgsP5s9

Synchro1,

The 1N3712 is useless in the THz band. A quick look at the setup in your video tells me that whatever you think you have going on, it is not likely to be happening anywhere near the THz band.

PW

synchro1 · « **Reply #486 on:** January 10, 2014, 08:57:15 PM »

@Picowatt,

I realize that. The "Synchro coil's" resonant tank oscillation is in the megahertz range, close enough to gain excitement from the higher frequency. This is a magnet assisted oscillation! The power comes from the LC tank oscillation. The tank oscillation acts like a step down transformer. You have to match your electrolytic capacitor value to your series bifilar windings inductance so the resonant frequency's in the diode's catch range.

Some Radio shacks usually stock one hi-frequency glass diode that will work. They can order it if it's not readily available. It can help to go with a higher frequency broader spectrum diode like the tunnel germanium I recommended, but the Radio Shack inventory will work.

I thought there was a better close up of the diode then appeared. There's a close up of one in the intercom video. Just fast forward to 6:22 in the video:

http://www.youtube.com/watch?v=9XMfCpUzq_g&list=TLIIucQXNfeEQeX8aSPjZQXw9pbykaf9I7

I used powerful 1/2" x 1" coupled diametric neos, lightly wrapped in fine wire series bifliar. I never tested weaker magnets. The LC tank oscillation would normally peter out with out added input. The powerful neos alone are enough to sustain the oscillation, and continually charge the capacitor! I've been calling this the "Cook effect", after Daniel McFarland Cook, inventor of an eighteenth century magnet battery. Mine is a simplified version. I find it simple to get the effect. I tried different types of diodes, and the hi-frequency types perform the best. How large are the most powerful magnets you own?

picowatt · « **Reply #487 on:** January 10, 2014, 10:12:22 PM »

Quote from: synchro1 on January 09, 2014, 08:41:22 PM

What Milehigh doesn't understand is that the "Synchro Coil" is not an induction coil, It's more of a Radio reciever, but the sine waves it rectifies are just outside the radio frequency bandwidth in the Teraherz range.
...

Synchro1,
I was merely disagreeing with your claim regarding the rectification of THz range sine waves.

That is very, very unlikely with your setup. If the propagation and rectification of THz sine waves were happening with your circuit, that would be as much or more so remarkable than any overunity operation.

http://en.wikipedia.org/wiki/THz_gap

PW

synchro1 · « **Reply #488 on:** January 10, 2014, 11:50:44 PM »

Quote from: picowatt on January 10, 2014, 10:12:22 PM

Synchro1,
I was merely disagreeing with your claim regarding the rectification of THz range sine waves.

That is very, very unlikely with your setup. If the propagation and rectification of THz sine waves were happening with your circuit, that would be as much or more so remarkable than any overunity operation.

http://en.wikipedia.org/wiki/THz_gap

PW

@Picowatt,

Take a look at this link on terahertz diode:

http://coolcadelectronics.com/portfolio-item/infrared-rectennas/

synchro1 · « **Reply #489 on:** January 11, 2014, 12:02:17 AM »

Quote from: TinselKoala on January 09, 2014, 02:26:16 AM

That earns a ROFL, for sure. Just what does a terahertz fractal look like on a DSO, I wonder.

If you want some credibility, synchro.... why don't you present some _evidence_, like demonstrations of your own, that show some of these remarkable effects you claim.

You'll have to wait for me to return from Costa Rica to the shop in Northern California. I just posted two videos of the incredible effects; You've probably already seen them both. One : Leon Dragone's magnet pump, and Two: the intercom coil. Have another look!

The Terahertz fractal I'm speaking of would appear as an increased charge rate. I talking about an LC tank resonance tested for with a variable capacitor.

picowatt · « **Reply #490 on:** January 11, 2014, 12:06:45 AM »

Quote from: synchro1 on January 10, 2014, 11:50:44 PM

@Picowatt,

Take a look at this link on terahertz diode:

http://coolcadelectronics.com/portfolio-item/infrared-rectennas/

So what is your point? Do you actually believe that your clip leads, magnets, coils, and a relatively slow tunnel diode are accomplishing something similar to what is described in the link on rectennas? DARPA would be very interested if that were so.

Sorry, I do not believe you are rectifying THz range sine waves with the setup in your video.

PW

synchro1 · « **Reply #491 on:** January 11, 2014, 12:08:32 AM »

Quote from: Magluvin on January 08, 2014, 07:07:52 PM

Hey Syncro

Is there an exact circuit posted for this? Cuz you did mention diodes. Thanks

Mags

No, I currently have limited upload capabilities here in Costa Rica. The circuit is blindingly simple. Just a germanium diode in series with an electrolytic capacitor between the ends of a series bifilar coil. The coil of course is wrapped solenoid around powerful coupled diametric magnets of any number in length, the more the better!

synchro1 · « **Reply #492 on:** January 11, 2014, 12:10:32 AM »

Quote from: picowatt on January 11, 2014, 12:06:45 AM

So what is your point? Do you actually believe that your clip leads, magnets, coils, and a relatively slow tunnel diode are accomplishing something similar to what is described in the link on rectennas? DARPA would be very interested if that were so.

Sorry, I do not believe you are rectifying THz range sine waves with the setup in your video.

PW

The "Synchro coil's" resonant tank oscillation is in the megahertz range, close enough to gain excitement from the higher frequency. This is a magnet assisted oscillation! The power comes from the LC tank oscillation. The tank oscillation acts like a step down transformer. You have to match your electrolytic capacitor value to your series bifilar windings inductance so the resonant frequency's in the diode's catch range.

The magnet's assisting the LC tank oscillation. The magnet's frequency's in the terahertz range. The diode is not directly rectifying the magnet's vibration, but the excited energy in the circuit.

Look, the magnet is sustaining a resonant oscillation that would normally die out without additional input. The magnet assisted self oscillation is overunity. You'll have to wait for me to upload a new video. I've succeeded at this hundreds of times, it never failed to work. It's a wonder to me why no one else has tried it. Conradelektro started out with an attempt, and Milehigh barged in and ruined the test. You'll just have to be patient. I'm describing a very simple to understand effect!

picowatt · « **Reply #493 on:** January 11, 2014, 12:19:31 AM »

Quote from: synchro1 on January 11, 2014, 12:10:32 AM

The "Synchro coil's" resonant tank oscillation is in the megahertz range, close enough to gain excitement from the higher frequency. This is a magnet assisted oscillation! The power comes from the LC tank oscillation. The tank oscillation acts like a step down transformer. You have to match your electrolytic capacitor value to your series bifilar windings inductance so the resonant frequency's in the diode's catch range.

Synchro1,

So then why would you state that you are "rectifying THz range sine waves"?

PW

gyulasun · « **Reply #494 on:** January 11, 2014, 12:20:03 AM »

Quote from: synchro1 on January 11, 2014, 12:08:32 AM

... The circuit is blindingly simple. Just a germanium diode in series with an electrolytic capacitor between the ends of a series bifilar coil. The coil of course is wrapped solenoid around powerful coupled diametric magnets of any number in length, the more the better!

Synchro1, can you tell the exact type of the germanium diode you use in your circuit?

News:

User Menu

Author Topic: Self accelerating reed switch magnet spinner. (Read 291741 times)

synchro1

Re: Self accelerating reed switch magnet spinner.

picowatt

Re: Self accelerating reed switch magnet spinner.

Magluvin

Re: Self accelerating reed switch magnet spinner.

synchro1

Re: Self accelerating reed switch magnet spinner.

synchro1

Re: Self accelerating reed switch magnet spinner.

picowatt

Re: Self accelerating reed switch magnet spinner.

synchro1

Re: Self accelerating reed switch magnet spinner.

picowatt

Re: Self accelerating reed switch magnet spinner.

synchro1

Re: Self accelerating reed switch magnet spinner.

synchro1

Re: Self accelerating reed switch magnet spinner.

picowatt

Re: Self accelerating reed switch magnet spinner.

synchro1

Re: Self accelerating reed switch magnet spinner.

synchro1

Re: Self accelerating reed switch magnet spinner.

picowatt

Re: Self accelerating reed switch magnet spinner.

gyulasun

Re: Self accelerating reed switch magnet spinner.