@Inquorate
What do you have between 555 and coil? They are sensitive but quite simple solution to do the job you need.

Vtech

Hi Inquorate,

Have you tried a solid-state SSG to pulse the coil?

I have one running, but my SLABs are junk. I can adjust the load from almost zero amps up to over 1 amp and it will charge a 4th battery as well.

Let me know if you have any questions. The circuit is from p46 of FEG, I was running a trifilar with a FWBR. I changed it to a bifilar, a-la vanilla SSG circuit. I didn't seem to make much difference, but I didn't run i long enough to be sure.

John K.

I'm being cautiously optimistic but after 45min run and 15min rest I noted total net gain of 0.13V It's a "drop" comparing to Bit's results but I'm happy and highly motivated to tweak further with a load.


Vtech

@ vtech and John_K - I've got the same H11d1 optoisolator, cap and diode as most here.

But I've killed 2 transistors, 4 optoisolators, 2 lm555's, and 2 tl494's, and 4 diodes...

Hardly cost efficient

I'll have to rig up a solid state bedini Bifilar coil, potentiometer on the base, etc etc. And an extremely rugged transistor.

Life keeps getting in the way just now, so might be a while till I can show more progress.

@ all, keep plugging away, the tesla switch does appear to be a winner.

Inquorate,

My order of prefernce for trannys - MJL21194, MJ15024G, 2N3055.

@Vtech, well done mate. Keep chugging away!

John K.

P.S @Inquorate - Love ya quotes mate! "Blessed are the cheesemakers!"

@ John_K - Surely you mean to refer to any manufacturers of dairy products?

If I may comment here, I have had some small experience with Mr Bedinis bipolar switch, mostly on window motors.

For those who dont know, the bipolar switch works in a way that allows a load (the drive coil in this case) to be completely isolated from the source. The full bipolar switch allows for that same coil to oscillate alternating current, by inverting a second half circuit over the first.

Depending upon which half of the circuit is triggered will depend upon which way current is directed through the coil. The important thing I think here is that you can have a load which is hooked up to two different sources/ or alternate potentials and trigger which one fires through the load very easily, a small signal to the base of the darlington transistor.

Now perhaps one side of the bipolar switch could have two batteries in series, and the other side two in parallel, or something of the sort? But Johns first comment has me thinking it might function more like the scalar charger, because it mentions caps? Im trying to visualise how it could help, perhaps others would be interested in briefly delving into the half/full bipolar switch, maybe something will jump out at you and prove useful?

Im happy to add what little knowledge I have gleaned from it, unfortunately, I am not as up to speed on others here with the Tesla Switch ATM. I have no funds to build so I sit here and eagerly watch your process (of which I might add is making me smile more and more each day )

Is anyone else here familiar with the switch, and if so, can you see a useful scenario within the TS for us?

Regards

Umm, yes Woderwick, or Woger.

BTW, still waiting for the PICAXE kit to arrive. I'm just messin' with solid-state SG circuits in the mean time.

I blew an MJL21194 the other day. I tried the circuit in JB's latest patent app. with a 330uF 450V cap, running off a trifilar iron-cored coil. The poor MJL which was used as the switch to dump the cap never new what hit it. The cap maxed out in about a quarter of a second - incredible. The circuit was only pulling about 400mA @ 12V.

Thanks JB!

John K.

It sounds like your onto something maxing that cap out so fast.
I also had a scr not knowing what hit it when using a to large cap.It was a TYN612. 12A and 140A non repetive peak current
That is probably why the patent shows a few fets in parralel.
Or a few Mjl`s like in the video?
If we want to charge a cap bank in the middle of the TS we have to use smaller caps as the bipolar switch transistors must be able to handle that surge?

Let's get together and talk, we'll grab coffee or something.

''Follow the gourd!''

D-TS New test setup

Ok gang, take a look (look closley in the middle of the drawing) I get a usable voltage between 4 and 8 volts so far. Tweeking and tuning for more by pulsing this with the control of the PIC. Do not drive loads at J5 and J6 when in this setup.

Thanks

Bit's

Its a date. I'll call you early next week to tee up a time if you like?

Regards

Cautiously Optimistic

Hi Vtech,


Congratulations on a good build. If you are still getting good charging can you share with us what your timing and duty cycle are? And also what load you are using. I think you said you were using 12volt 7ah SLABs.

I am using the same batteries, but I have not gotten any charging yet. I have tried several loads and timing and duty cycles. The best I have gotten is for the TS to run for a long time and the battery voltage to come back to what it was before the run if I let them rest for an hour or so after the test. By a long time I mean overnight or all day.

I did run an interesting test last night. I am using the picaxe18x project board. I have separated the power for the output driver chip from the power for the picaxe chip. Last night I connected a bridge and cap as my load for the TS. I then powered the output driver chip from the bridge and cap. This meant my TS was supplying power for the chip and 6 optos and 4 Leds. I let it run for about 8 hours. After letting the batteries rest for and hour and a half they came back to exactly the same voltage they were before the test. The circuit I am using I posted back on post 1825 on page 61 of this thread. The timing I used for that test was 1 second on and then switch sides with no off time. I don't know why but I seem to get better results with no off time. I thought JB said early on that off time was needed, so I am confused with my results. I have proved to myself anyway that the circuit can be used to power a load and not drain the batteries. Now I just want to see it charge the batteries.


Carroll

So when Q1 fires it sends approx. 24V on the top rail where Q10 is. You'll notice a diode is placed just after the collector of Q10 which inturn connects a 35,000uf cap to the ground of batt 3. The same is true for the Q9 rail. On firing Q1, 24V is apparent on the first cap (it charges), then on the firing of Q2, 24V is apparent on the second cap. Steering diodes are also placed to put these 2 caps in series. You now have 48VDC at very little (charging) cost from the 12 V batts. Then the PIC monitors and uses 4 to 8 Volts off of this charge (again with no cost) to the batts.


Hope this helps.

Bit's

OMG Bit's, not so fast This looks to me like part of a Scalar Charger driven off the TS. Brilliant

@citfta I have a pretty "chopped" day and had to turn everything off when going out, several times. I'm still trying different loads and changing code every time. I don't want to drive everyone in circles but give a solid data with specific values and type of load which can be replicated. I went back to 5W 12V automotive bulbs - which are common but have to adjust code from previous ones (small grain bulbs in series of three). I'll share results as soon as I can.

I like tilting fish tank analogy. Very accurate


Vtech