I got a video here of me able to light a 1.4 watt 120 volt LED bulb for only 0.6 watts.

YouTube - Captret Lights a LED bulb for half the needed power

My captret LED 1.5 watt 120 volt light bulb that i got to run on .06 watts shown here YouTube - Captret Lights a LED bulb for half the needed power is now running at 0.00 watts! Not as bright but it still lights and it doing so for free! (just don't tell the power company )

It makes a great night light that runs on mere voltage.

@All,

I finally got around and soldered my first (of 10) CapTret boards.
The board has 100 pcs. 220uF 35V electrolytic capacitors that
has both + and - shorted out as one connection, and a new wire
added to the aluminum can with conductive glue and solder
as the second connection. Then all the modified capacitors are
connect in series.

The series string of capacitors self charge up to approx. 1,8 Volt.
When I load the board with my volt meter then the voltage
drops fast to some millivolt. So the current capability is very low.



I will do some tests on this single board to see if I can tap some
useful energy out of the board before I continue solder the other
boards. It will take some time because it is a slow and boring
process to solder and modify all those capacitors.

Groundloop.

Very nice setup Groundloop, maybe you would get some better result if the caps were without their plastic suit ?

@digitz,

I'm researching the capacitor self charge effect and I did get exactly
the result I predicted for this setup, approx. 1,8 Volt of self charge.

No need to remove any plastic from the capacitors since I have soldered
a new wire to the aluminum can at the top of the capacitor. I have
posted a detail description on the setup earlier in this thread.

My goal with this research is to see if I can get any useful energy
out of the capacitors for free.

Groundloop.

The idea i had in my mind was that maybe a cap without plastic would get more energy from better exposure to its environment than a regular cap.

you should have made them....

It would have been better to use them in the normal captret style. I bet it would have been very very powerful. I know that 8 parallel captrets powered 5 leds very brightly. Until I blew my leds. That was on my dead 12v battery at 9.2 volts.

I can not imagine what kind of real power you could have gotten from 100 caps in parallel. The normal style is to connect the neg to the case and the positive to the positive of the battery. Then put your load across the positive of the cap and neg of the cap.

Also with a good jewel thief you can get a lot more out of it. It seems the negative of the cap slip streams power off of the very small leakage current that the caps have between the case and positive. It seems the flow is from positive to negative and creates a vacuum going in that direction.

@Jbignes5

I'm researching the electrolytic capacitor self charge effect. This effect is the caps
ability to self charge and provide free energy without any operator input. My setup
already proves 100% that this effect is real and can provide a small power.

Yesterday I connected a 1uF (low loss MMK capacitor) to the 100 capacitor board.
This morning the capacitor had been recharged to 2,8 Volt. Tested power by connecting
a LED over the capacitor. The LED did blink once. This confirms that the the self
charge effect in electrolytic capacitors is real and can provide power.

This is the first free energy (although very low energy) device I have seen in my 10
years of research. So now I need to solder 9 more boards to be put in parallel to
increase the current output. This will take some time because the job of soldering the
capacitors takes 4 solder pr. capacitor. So one board with 100 capacitors is 400
solder joints. It is a boring and slow process to solder those boards. :-(

What I have learned so far:

- All electrolytic capacitors have a self charge effect.
- The self charge effect is NOT a phantom diode, virtual diode or "just" pure voltage.
- It is possible to series enough capacitors to get a higher voltage. I got 2,8 Volt
with 100 series capacitor configured as described in my postings.
- It is possible to parallel more series strings of capacitors to increase current output.
- The operator does NOT have to provide ANY input power so the COP=infinite.
- This method of constructing a free energy device is time consuming, cost a lot
of money, and because of that, never will be a practical way of powering loads.

But it is fun to see a true negative resistor at work. :-)

Alex.

Try making a Bedini type window motor that does not use an iron core. Coil cores are lossy most of the time and you will have to overcome the attraction of the magnet to the core with power. The window motor does not suffer with this and unlike core coil pulse motors, the stronger the magnets, the better the push without increasing input current. You can also recover more energy back to the captret using the half bridge circuit. I would go for the half bridge triggered by a hall or reed switch and use just one power winding. Good luck.

cap

i build 2 farad capacitor for my newman motor.

several large paper foil in large can filled with boiled linseed oil.

works well, not for captret.

For all intent and purpose what you have there is...

You are not understanding why this self charge is there. It is the very reason why the cap is polarized in the first place. Here is a quote.

"Nineteenth and early twentieth century electrolytic capacitors bore little resemblance to modern types, their construction being more along the lines of a car battery. The borax electrolyte solution had to be periodically topped up with distilled water, again reminiscent of a lead acid battery."

I would say that they do in fact bear quite the resemblance of todays electrolytic's. It is the reason why we are seeing this charging effect. If left alone they gently create this polarization.

If we use the cap much like we have been using them they can even add their charge to the batteries voltage and slowly charge up the battery, over a few days period. The interesting thing is when we use them without both leads shorted. It allows us to tap the potential of the battery without drawing a heavy current. It does this by establishing a parallel flow that is sucked along this polarization of the cap. This is why we are using the caps as the source for our experiments.

If you want to see this effect all you have to do is hook it to a battery to provide the potential and strengthen it's flow. After connection of the battery just measure between the case and each terminal and you will see the potential difference that we are utilizing between each plate of the cap. The plus will be very strong and the negative plate will be much weaker and have changed it's polarity to (+). If we then connect the load across this potential difference of each plate we can get a flow much like in the Tesla switch between two like potentials (+). This flow is circular in nature and it is driven by the potential difference of the two plates. When a flow gets created it is between the two plates and the load only. The problem here is when the solution gets boiled away it looses it's ability to hold the difference of potential between the two plates.

What is very interesting to watch over time is that the negative plate gains strength and can maintain or gain strength over time because the polarization of the negative plate to the electrolytic solution becomes weaker. This is what we observe as the dimming of the load happens. This process is damaging to the structure of the cap though. It also changes the dynamics of the forces present in the cap as well. Instead of it holding itself in place by holding the charge it now repels each plate. Since there is no where for it to go the forces cause a sliding of the plates axially and eventually breaking the pressure relief marks on the can or bulging the rubber stopper where the leads are inserted. The amount of bulging totally depends on the strength of the energy from the source. Since we use dead batteries mostly the charge or power of the source is near nil but as the pressure increases it will end in destruction of the capacitor because we are not using them in the way they were designed to work. That is a simple fix though. Making a custom capacitor is the only way we are gonna get around this.

Now if we need to use a potential to kick start the process then thats what has to happen. In most cases this is where you get to use the potential without a price. I would like to say again "in most cases". As I have been experimenting with the "Captret" and the Jewel thief circuit I was getting excellent results. I think I was missing some diodes in between the captret and JT. This causes a current to flow because it was drawing more then the captret could separate or keep that separated from the current. Given enough pull from the load the Captret fails and more current flows in a normal manner. I think if we started to look at the very old electrolytic style of using borax as the electrolytic solution that it just might sustain itself for a longer period. We could design them to be very much like a battery, with good maintenance it would be a very tough solution to the problem.

We would have one battery and one huge "captret" or bank of "captrets". In using the Jewel thief we gain a boost of voltage of what the captret provides. I have not checked at the amount of current it draws since I blew my fuse in my dmm... I'm getting a new fuse... At the moment I think we need to concentrate on the "Captret" portion and start designing a way to mirror the electrolytic with the design improvements we need to make it safer.

For those that are experiencing the self charging effect with your batteries I think there might be a simple explanation as to why its happening. Well i wouldn't call it a simple explanation but I'll give a simple demonstration. The explanation or demo is simple but as to why is not so simple.

I'll post a video as to what i mean. I've been running a test since October and many of you might be surprised as to what is happening.

Please stay tuned to YouTube - ibpointless2's Channel

The video will be called the secret behind the self charging captret.

Let me know what you think.

A simple homemade Captret producing more voltage out than whats put into it.

YouTube - More Voltage out than in -- Water Captret

Seriously interesting and even I can understand what you are doing!

Cheers,

s.

Cool vid. I read somewhere that water has a memory effect, and that you can get strange results when you submerge a speaker coil (carefully removed from an old speaker) into a glass of water and play music or tones into the water.

Hope no one tries to discharge a capacitor into aluminium foil sitting in a container of water or...

YouTube - Aluminium Foil - The next generation explosive