The cap across the bridge rectifier is supposed to do what here?

for all i know is while testing and hitting some wires with another wire
and measuring i saw my voltage going up, from about 2.3v to 3.3v
so its good for me, the ends from the joule thief have lots of amps
that i can use to light up leds. but in the circuit after the rectifier i have more voltage but less amps, not enough to light up a light, but after my new test with the 2e diagram and some adjustments i can light a led unstable while loading a battery (in test i dont use a led - cause i want to see how the source batteries are doing)

Also the minus pole of the caps connects to the plus of the battery.
for as fare as i know i got my caps after rectifier hooked up to min and plus after rectifier and going to battery in right direction min on min, plus on plus


As it is now the current will simply flow through the 2nd cap and then choose the path directly to the batteries minus pole (technical current direction)

why i added the caps after my rectifier, is cause of after i added the 1e cap it boosted my peaks of voltage (2.3v), then adding a 2e i stabled my voltage more im using 2 small caps of 25v/35v 10uf, and they boost also
then when i got about, but when adding that ac/dc cap it boosted my circuit with another 1v (sometimes when i disconnect i get readings that are out of scale on my multimeter, so atleast above 20v)

(so in a way im now using AC as an earth, like Bodkins using earth)

But maybe im wrong.
I am interested if your circuit will show positive results.

while im typing this post, and i started my bedini 4 hours ago
used 2 rechargeable batteries from my cam (2.57v)
and expected that it hould drop after 2 hours (thats what it did on normal non rechargeable batteries), but now my voltage is swinging more hanging on 2.57/2.58v so for me it a strange good something that im still testing
but the 2e circuit if diff from what im doing now, i will try to sow it next time (in my circuit now, i do not place a wire back to main minus circuit from receiving coil on bicoil - its like a 1 wire trigger, and using a cap, and minus from 3e coil circuit as earth in a way to boost volts, and amps)


Disconnecting the secondary winding by a transistor had not worked for me before although Rick Friedrich has had a success with it.

@Johnnblade.Hi JB.Thanks for doing that test.From what i can see on the vid on my 10 year old laptop,the sphere was a lot more stable but the voltage was down a touch.What was the amp draw with and without water?The fact that it ran at all i find interesting and i think if you extended your testube down a touch and added a pickup coil below your bifilar coil it would probably generate quite well as it seems to be acting like a stable satellite but with the possibility of far higher rpms so hopefully higher voltages.Thanks again JB regards jonny.

The answer is both. Since you are converting to current with your bridge and the caps. If you hot charge it (with current) then the standard is to have the charging part (cap or charger) at 2 Volts above the battery voltage to have a potential difference that let´s the current flow, current should be higher than let´s say 50 mA (depends on the size of the battery).

Radiant charging is to a higher part dependent on the voltage spikes that hit the battery plates.

But for instance in what Gadgetmall is doing, there seems to be not much current involved. His capacitors read 0.9 Volt, much lower than the battery voltage. Enough to open the diode, but it suspect it is mainly potential charge that goes through it to the battery. I am trying to understand this myself and may be wrong with this assumption.

There is many threads here in the forums that can explain that better than me. Just search for "Bedini Cap charging".

In your current circuit the transistor will unfortunately never open because the emitter potential is always higher than the base potential. You would need a pnp-transistor to get it to work with your current connections to the transistor.

Regards,
Xenomorph

Can we agree on naming the components like i suggest in the attachment?:
It is unambiguous that way.
Then what you mean would be :
i will do my best, since im kinda new to circuits, i only have my old knowlegde of circuit from like 15 years back im a pro C# developer now



So you connected one wire of L3 to the base of T2 ?
no i connected 1 wire from L1 with resistor R2 to the base of T2

Which voltage of about 3.3 v are you talking about (where was that measured) ?
i measured that after the bridge1, and after C2, and C3
when i disconnect C3 i get a swinging voltage of 2.8 to 3.3v
when connecting C3 i get a stable voltage of about 2.9v and climbing
when i disconnect my mutlimeter

The problematic thing of transistor usage of T2 is that you are hooking the positive potential of the battery to the emitter.
im just seeing it as an switch, and tried this hookup

As you can see with T1 the negative potential is at the emitter.
So your one wire needs to reach a ~0.6 Volt higher potential than the battery´s positive potential to open the transistor, and maybe that happens here,
when i measure the power on the base of T2 its 0.02v
and on the emitter of T2 there is a voltage of about 1.47v thnx to the cap C4
when i remove the cap C4 i get 0.02v again
is it possible that the volts going to the collector of T2
open up the T2 and lets some volts go through, cause at the emitter of T2 is a voltage of 1.5v


but if that fires at exactly the point of time when you want it to, you know that better.
One thing is clear, that if you DO get a voltage onto C4 it must come from C3 and C2, because D2 prevents the battery to charge C4.
i will do some more tests to whats really going on there

It remains highly interesting if you manage to get a charge onto the battery that way.
For the time T2 is open you will have a Lenz drag, but maybe the short transistor cycle makes it hardly noticable which would be a good thing

I have had good experiences with timed discharges off pickup coils to minimize the drag that way.
Good luck,
Xenomorph

Xenomorph--- I really like your idea of hanging the rotor rather than letting it run around on a plate. I worked more with the idea and found out a couple of things. First I found out that you can put a thin piece of plastic as a bearing surface between the screw tip and the suspension magnet. I just crazy glued a small disk onto the little neo and put a little lubricant on it. I think that maybe a thin piece of brass would work also. The second thing that I found out was that I can use a soild core coil easier with this method. I made an adjustable suspension arm to hold the magnet rotor far enough away from the coil and it worked great. I get better RPMs and less amp draw using this method.

Here is the video of it----

YouTube - Lidmotor TOP CHARGER with new top

Lidmotor

Xenomorph--- I really like your idea of hanging the rotor rather than letting it run around on a plate. I worked more with the idea and found out a couple of things. First I found out that you can put a thin piece of plastic as a bearing surface between the screw tip and the suspension magnet. I just crazy glued a small disk onto the little neo and put a little lubricant on it. I think that maybe a thin piece of brass would work also. The second thing that I found out was that I can use a soild core coil easier with this method. I made an adjustable suspension arm to hold the magnet rotor far enough away from the coil and it worked great. I get better RPMs and less amp draw using this method.

Here is the video of it----

YouTube - Lidmotor TOP CHARGER with new top

Lidmotor