Sharp burst

We understand discharge on the Cap voltage and the proportional decrease in frequency however the sudden increase is not completely clear as it is like inverse log function. Possibly the energy is done resonating it briefly hangs out at one end of the circuit the glowing ions release energy when they shrink back non ionized state. Now we need to use a lot of power to get them excited again. The glow would remain longer if the voltage and frequency were inversly proportional but then we go off topic I think the bifilar mutual capacitance is giving the modified fuji the gradient along with the leaky germanium diodes are what need to be modeled as a subcircuit just the way LS designed it. you make good observations.

Capacitor fluctuation.

The graphs for capacitor charge and discharge rates are curved not linear. The discharge rate increases as the charge falls, and begins to race, gurgle, spit and sputter like a tipped over container of fluid emptys out towards the end.

No thats not what happens. The thing is going full bright in flicker, but the cap is no where discharged. Usually between 7-8. You get bright flash's from the bulb.

It eventually goes out below 5 volt but its the really bright flickers while the bulb is dimly lit.

The wave form does not change either. Its as even as it can get.

Matt

Hmmm...

Yeah you locked it into a runaway condition. You are changing the resonance as you bring the two air coils together. Since they are bifilar they only emit an electric field. This field has zero resistance. Ok what burned out?

Put a 1/4 or 1/2 inch block in between the two coils and have that as your limiter. The wider, 1/2 inch would be prudent since it ran away at 1/4 inch. Play with it and see what it does...... Well once you get what burned out of the way rofl.....

Don't worry I popped a few tranies already... Oh and a few caps heh... Just play safe. Keep your face at a respectable distance and I usually only use one hand just in case. I always try to incorporate some kind of off switch or wire I know I can pull quickly usually the positive battery connection.

In this case I doubt the battery was even connected or was it?

@John_Bedini hey so what were you thinking about the captret addition? I know the kind of energy coming out of the captret is very very weak but yet it can run an led all the way down to nothing. Amazing how it likes leds... The funniest thing is it takes my dead 12 volt battery (usually 9.2 volts) and lets it run a good amount of diodes depending on the, what I like to call cylinders. You know like a 4 cylinder engine. I had 8 in parallel running a good amount of leds (average 8-10) at medium brightness.

When you mentioned the Triple Darlington transistors and the captret in the same paragraph it got me thinking. hmmm... I'm just forming the picture of the circuit in my mind....

Will 2n2222a's work for that John? I got tons of those... Would be nice if they could be used.... I had my best waveform from a 2n2222a... It wasn't drawing much either... Hmmm...

I was using a Joule Thief on a captret before and got good results. After the captret filled it used very little real power. My weak 12v would dip from 9.2v then quickly back up to the full 9.2v.. I was only using 1 transistor. If there were two more stages that would boost it enough to run without losses right?

Joule Ringer

Mat, Good that it worked out for you try adding some resistance say 10K ohms between base of first transistor to emitter of the last transistor. Try to look at this like a hybrid amplifier circuit. other tricks are second base to last emitter removing the first resistor. sometimes you need a little bias from collector to base like 500K ohms leave the resistor in the circuit. Also to match capacitance try 3 to 20 PF from collector to base of first transistor to see about stability. I think this one is a matter of gain.
@ Jbignes5 Yes 2n2222 will work just fine almost the same device.
The CapTret touch around the circuit and see if when you touch the top of the cap if it charges. Through some arrangement you can get it to charge up, it may be something that they call a gimmick just a couple of twisted wires for feedback to it.

Good work Mat.
John B

Closed loop circuit and three transistor Dalington

@All
I worked a little with returning the energy back to the front end by using an AV plug. It didn't work that great but maybe there is a way if the link is perhaps an open link of some kind. On some of the SEC experiments Dr. Stiffler showed it from time to time. It is a capacitive link of sorts.

I also tried the three transistor Darlington arrangement that John B. suggested. That was amazing. I just setup a simple Joule Thief circuit with a loaded 2.3v supercap as the power source and left the base wires open. Lightly touching the wire ends started the circuit running.

Here is a short video of the experiments:

YouTube - Closed loop Joule Ringer & Darlington transistor setup.ASF

Lidmotor

@all

I was wondering if you could charge a cap between the Neg and Top Of the capacitor A la Captret . If that works then maybe then that would work as a input for the loop .

Mark

Joule Ringer

Lidmotor,
That device has some gain happy to see it work that easy.
Good work...........
John B

Hey John
That helped alot. Smoothed everything out and it got brighter.
I got about 4 minutes, not quite full bright but I see the direction I need to look.

Cheers
Matt

I also suggest....

Not only should we look at matching the capacitance but the resistive elements in the circuit as well. Coils have both capacitance and resistance. These should be matched in my opinion so that there is a balance and this energy can flow without problems.

@John_Bedini.. Good to hear about the 2n2222a's.. I will start asap on the Darlington trio. I still have a captret quad so I won't have to put it back together.

The only thing left is to do the bifilar coil big enough to push the current down enough to only have the voltage present. I am thinking that this coil should be matched to the resistance and capacitance after the coil. When this happens I think this is where Lasersaber saw great run times from his setup.

Is this an impedance issue? I am starting to think it has a lot to do with it. when it is just right the run times increase and when it is not power is drawn from the source to make up for it or becomes self correcting. Think of it like a teeter tawter. The system we are looking at is or should be finely balanced so that any change throws it into oscillation. It is in essence growing in strength based on the capacitance and resistive balances and the feedback we choose to re-enter the system. The load once it is turned on (led, Cfl) doesn't need much to maintain that conduction and can run from very minute currents once the voltage potential reaches a stable level. I believe this current we are creating in this system is able to sustain the load for very extended times if the circuit has been designed well.

John, here is a good question. You have been talking about resistors on the base of the transistors. Should it be all the transistors or just select ones in the trio. I have picked out that it should be after the first stage. This agrees with my assessment after experimenting with the Joule Thief when connected to the captret. Since the captret is a current limited device already the first stage is pretty much current limited. Should ever level after the first stage be protected by a resistor on the base? Except for a small voltage drop I don't see how it could have more current available if the captret is driving the circuit.. I am also thinking that we should include a small capacitor across the resistance to allow for the ac signal to pass while the resistor limits the current to the base of the next stage. Am I correct in my thinking here?


on another note I am gonna be using this torrid ring for the bifilar in the Joule Thief:



And a regular ferrite loop stick for the transformer.

I have a few questions about the winding of the loop stick. Is the small windings (1 ohms) bifilar wound? I know the 1400 turns is single wind but the other small winds got me confused.

Joule Ringer

Jbignes5, Mat

Yes you could do it that way, it's more like a oscillator amplifier and the CFL is the issue. Everybody is using a different CFL so you must tune that device to the circuit. You may find that building a bias circuit like from base to emitter 10 K and then from collector to base say 500K will allow the transistor to start much easier.

Again the CFL looks like a big Zener when it first starts so it just need a little help after that home free. Now the reason I posted that data sheet was to get the Darlington arrangement as close as possible to the gain of that special device.

The SOA curve is also very important. I think that device can take an inrush current of 5 Amps from what I remember from the curves, but not for very long. So it's important that the CFL is glowing right away to cancel that Zener effect ( looks like a short circuit).

I also think that LaserSaber's original circuit used the CFL in the base circuit with high voltage, the reason for the transformer he wound with leaking diodes, but you could use a transistor if you bias it right. When he touches things and it gets bright that indicates a capacitance problem in the circuit, it's not stable.

"It's the high voltage in the base circuit is where the problem is". Just use your current meter for the total current and watch what it does before / after the CFL lights and see if the current drops down to MA , then do the same in the base circuit. That transistor only wants to run in very narrow curve and you must match it and never change that CFL to anything else (not good).

If you then change the CFL it does not operate any more because you have changed that curve again in base current, to much and you cause the transistor to cross conduct at that frequency and it fry's. You can put a Zener diode in the base to limit it, Requires two parts one diode and a Zener of the correct voltage to limit base current.
John B

What about leds?

I know leds are just diodes that emit light. Is this the same thing and why we are able to use them interchangeably? My aim is to make a headlight for my electric scooter that will only need the potential difference the batteries provide to run it.

The motor is another thing and I have stated my direction of interest in other threads of the motor/generator to drive the scooter.

My direction of interest in this is to provide a currentless lighting option so that it will not lead to much drain of the starting battery system of the motor/generator. Ultimately this would be a complete EV solution designed from the ground up once the technology is stable enough to merit attention.

I really appreciate your thoughts!

By the way I am also a John B. lol....

jbignes5

A simple voltage regulator can be made with a resistor and a zener diode connected in reverse as shown in the below diagram. The resistor limits the current. The current through the resistor is constant, so when there is no output current all the current flows through the zener diode and its power rating Pz must be large enough to withstand this.

Choosing a zener diode and resistor:

The zener voltage Vz is the output voltage required
The input voltage Vs must be a few volts greater than Vz (this is to allow for small fluctuations in Vs due to ripple)
The maximum current Imax is the output current required plus 10%
The zener power Pz is determined by the maximum current: Pz > Vz × Imax
The resistor resistance: R = (Vs - Vz) / Imax
The resistor power rating: P > (Vs - Vz) × Imax



Maybe you guys can work this into your circuit somehow.

[Edit:] Posted in wrong forum, but I'll leave it here since zener diodes are being discussed in this thread.

GB

Is anyone familiar with the BlackGate Electrolytic Capacitors? Here's more information on the BlackGate Super E-Caps. The power transmission efficiency increases by five times as high as that of conventional capacitors. In addition to this, the structure of the Black Gate is non-polarised, so it makes the above efficiency even higher than that of an ordinary polarised electrolytic capacitors.

I've also been wondering how the BlackGates will perform as a captret, since the cap uses a "Transcendence Electron Transfer" method based on the tunnel effect. These are not your ordinary electrolytic capacitors and I would like to know if they could be useful for this project or the many other projects on this forum. The BlackGate capacitors are no longer in production, but you may be able to find them on e-Bay.


Thanks,

GB

Re: matching capacitance and resistance

Absolutley the matching and balancing means a world of diiference.
Wheatstone was one of my favorites when it came to balance. I'm not sure how to build a joule ringer wheatstone but it would give the Z and everything.
I like your comment and I wanted to say that in development LS used a multitap tester coil as an approximator coil which was handy.

If the frequency range is found the coil would be matched little lower than center frequency. Since the resonant frequency has the highest voltage. Another tool would be diodes to rectify and a volt meter across the secondaries. a 100:1 voltage divider on the secondary to bring the voltage down to a safe level to keep your meter from excessive HV. The last time I mentioned this the guy had a network analyser modified for testing stuff like this. Oh well.

RE: ET the 320VAC ok the next step up needs a fuse like a #45 wire