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Author Topic: Split Flux Transformer  (Read 51774 times)



rakarskiy

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Re: Split Flux Transformer
« Reply #17 on: May 13, 2017, 05:02:26 PM »
Very interesting stuff.
The author of the Alekskor method.
http://www.free-energy-info.tuks.nl/Chapt3.html   
Please see   "The Alexkor Zero-Back-EMF Coils"
http://www.radiant4you.net/ - His site, where he offers "radiant chargers" for various types of rechargeable batteries. This site I know from 2012. There is also an e-mail address and a phone if anyone is interested.
Below are two figures, very similar technologies



SkyWatcher123

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Re: Split Flux Transformer
« Reply #19 on: May 14, 2017, 06:50:25 AM »
Hi all, Hi menofFather, yes i think your correct, if we take into account the feedback energy, the efficiency is much higher.
So, do you feel something similar is happening with this oscillator with bifilar secondary coil, or at least approaching a similar condition, minus the split flux aspect.
No matter the load (or even shorted) i place on the full wave bridge DC output, the input current in relation to the no load current of the oscillator, either stays the same or decreases.
I was giving some thought to this, the frequency is high and it may be possible that the input pulse is so quick, that the field created within the primary coil, collapses before the secondary coil can build enough induced field to counteract any expanding field within the primary.
So when any significant field forms within the secondary, the primary field is in collapse mode and we can observe a reduction to the input current, much like a motor speeding up and freewheeling, while input current reduces.
Though unlike in the motor example, in this solid state example, we are at our highest loaded condition.

This sure seems similar to Thane Heins delayed lenz generator effect, where he gets the magnet rotor up to a threshold speed and before the induced field within the generator coil can build any significant magnetic field, the rotor magnet is already at top dead center and the rotor does not experience any braking effect.
Increase rotor speed a little more (aka 3200Hz frequency) and the magnet goes just beyond top dead center and the magnet rotor actually speeds up, while providing its greatest output.
Sure sounds like William Aleks transformer going beyond 90 degrees to me. 
Comments welcome.
peace love light

MenofFather

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Re: Split Flux Transformer
« Reply #20 on: May 14, 2017, 05:00:50 PM »
Power factor in Alek divice is low, because primary and secondary coil has low magnetic coupling. In conventional transformer secondary always wound on top primary or near primary, so they have hight magnetic coupling and because very hight power factor under load (almost no reactive power). Alek divice like and T. Heine divice have low magnetic coupling (betwen primary and secondary), so and low powerfactor with load. To corect power factor and make it 1 needs add parallel to primary phase corection capasitor or in other words primary must work on parralel resonance, then power factor be 1 and then possible use simply transistors to feed primary, because then no energy going to source. If not put that capasitor, then some energy trys go to source (Back EMF), but it can not go to source, then on primary is meandr from transistors, and so Back EMF is radiatet to space if transistors rated on hight voltage. If transistors low voltage, then back EMF heats transistors. And back EMF little demagnetizise core.

Acca

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Re: Split Flux Transformer
« Reply #21 on: May 14, 2017, 07:33:26 PM »
Just read the new patent and on page six he describes this  statement ...


" inventive energy management system produced more energy than it consumed so that it can be attached to rechargeable batteries which are thereby constantly recharged "...


this one just got by the patent examiner ...


1200 % is the gain.. of this device...


It seems to me that the only "real" device is not shown except figure 3 and the rest has the round cores..


Bifilar coil is a must here for the secondaries..


Acca..








MenofFather

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Re: Split Flux Transformer
« Reply #22 on: May 14, 2017, 08:11:08 PM »
Just read the new patent and on page six he describes this  statement ...


" inventive energy management system produced more energy than it consumed so that it can be attached to rechargeable batteries which are thereby constantly recharged "...


this one just got by the patent examiner ...


1200 % is the gain.. of this device...


It seems to me that the only "real" device is not shown except figure 3 and the rest has the round cores..


Bifilar coil is a must here for the secondaries..


Acca..
About that patent you writing?

MasterPlaster

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Re: Split Flux Transformer
« Reply #23 on: May 15, 2017, 01:44:37 AM »

MenofFather

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Re: Split Flux Transformer
« Reply #24 on: May 15, 2017, 03:04:59 PM »
I try with http://www.ekits.ru/published/publicdata/SHOPEKITEKITS/attachments/SC/products_pictures/ir2153-1.gif for primary
I use ferites small. Primary 8 turns 50 cm. Secondarys 1. 4 meters 57 turns  0.7 omh, 12 milihernies. 2. 4 meters, 56 turns 0.7 omh, 9.54 miliH.
On output  diod bridge, then capasitor and resistor 1 K (very hot about 3-5 W). Voltage on output 71.7 V. On input 26.6 V 0.25 A.
So on output 5,14089 W and on input 6,65 W.
Works like regular transformer. Secondaries conected in sieries. If I conect in not inductive way secondaries, then I get on output wery small voltage and that resistor ofcors not disipate any almost power, but and input curent then drops to 0,04 A.
So I not get overunity. I changed frenquencies diferents, thats not make big diference. Frenquencies I use about 20-100 kiloherc. Only higher frenquency, lower output power and lover consumption.
Electronics to control mosfets is cunsuming power from 15 volts, from other source.
Diodes are Her308 (1000 V).


MenofFather

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Re: Split Flux Transformer
« Reply #25 on: May 15, 2017, 03:15:02 PM »
I tryed and lower voltage about 8 V and 0,07 A, then on output I get 21 about volts and so on output is 0,441 W and on input 0,5705 W. Frenquency 85 kiloherc. Resistor same 1 kiloomh.

MenofFather

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Re: Split Flux Transformer
« Reply #26 on: May 15, 2017, 07:47:52 PM »
In Alek Divice one secondary have 15 omhs, other 17 omhs. So if output curent is 0.427 A RMS, then if coils conected in sieries on they be voltage U=IxR= 32 omhs x 0.4=12.8 V. Power disipated on this secondaries be 12.8x 0.4=5.12 W. So output is not 4.53 W, but 9.65 W of heat. So Efficiency real is not 609 precents, but about 1300 precents.

justawatt

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Re: Split Flux Transformer
« Reply #27 on: May 15, 2017, 08:27:47 PM »
working split flux transformer
https://www.youtube.com/watch?v=fyLWDJ1Uejo

Entrance - 220 Volt, 0.5 Amp ( 110 Wat) Output - 660 Volts, 1.0 Amps ( Wat 660) Load - 600 Wat.
If the load is different, the consumption and output is also different

Transformers 2 kW, each with three windings, each on 110 Volts.

MenofFather

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Re: Split Flux Transformer
« Reply #28 on: May 15, 2017, 09:04:55 PM »
working split flux transformer
https://www.youtube.com/watch?v=fyLWDJ1Uejo

Entrance - 220 Volt, 0.5 Amp ( 110 Wat) Output - 660 Volts, 1.0 Amps ( Wat 660) Load - 600 Wat.
If the load is different, the consumption and output is also different

Transformers 2 kW, each with three windings, each on 110 Volts.
From were you get, that input is 0.5 amps? In viddeo is 5.5 amps, and then shorted turn, then about 4.5 amps and 220 volts. On output 600 W  light on 190 V (with shorted turn). So input 990 W. output 500 W.

justawatt

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Re: Split Flux Transformer
« Reply #29 on: May 15, 2017, 11:17:34 PM »
before that the device is loaded with series 600 watts light https://youtu.be/fyLWDJ1Uejo?t=1m17s

yah you are right 4.5amp is the value in the video that is when he add the 2 kw heater in the bottle you see https://youtu.be/fyLWDJ1Uejo?t=1m27s

and 5.5amp when he short the coil that smokes after some times.

when this happens input is around 1210 watts and output 600 watts light + 2kw heater coil

I am in contact with the author of this video ,he explained what he did at each stage.