Hi guys,

I have spent the last couple of nights trying to get this simple circuit to osciliate.

I have tried countless coils, transformers from PC psu, pinball machine coils all to no avail

For my transistor pair, I am using TIP 31 and 32.

10k pot and 100 ohm.

I have also tried 7mix 100k to ground circuit.

Any tips, greatly appreciated.

Kind Regards, Penno

I have found car ignition coils to be the easiest to oscillate. The bigger the coil, the lower the resonant frequency. Since most transformers are iron core this lowers the frequency even more.

Also, as I mentioned once in passing, sometimes disconnecting and reconnecting the circuit with the pot set in the right position will kick it into gear. The initial transient probably gives it the kick it needs to open the first transistor and start the oscillation. Try adjusting the pot a little and then opening and closing the circuit, and repeat.

Try different size batteries... try 6 volt and 12 volt.

Also, perhaps your circuit has a short or is connected improperly... Can you take pictures of your build and upload them so we can check for accuracy?

Thanks for trying stingo, it's fun :-)

Thanks for the interest . You do this?

Thanks guys for the replies.

I persisted and tried the HDD motor.

What a buzz.

Runs as low as 3.0v and screams at 12v.

I will load up a you tube shortly.

I configured this as the charger as well , and though I am seeing the spikes
on the CRO, I could not get battery to charge any ?

Once again, thanks sucahyo and 7mix.

Regards, Penno

Sorry guys, it is charging. I was biting off more than I could chew. I was trying to charge a 12v.
On a 1.2 Ni-Mh, charges and rather quickly too.

Thanks

irrelevant post coming.....


Why did you choose to call your circuit's "stingo"?

@Armagdn03:

That is awesome. Looking forward to your videos.

I haven't been able to drive a hdd stepper motor yet, but I did get it to oscillate once at a very high frequency. I need to solder some better leads onto my hdd motor so that testing is easier.

ha ha ha, very nice!

Been off line last couple of days to do normal living things, and did fit in some more testing. Doing more learning about the nature of the typical ignition coil too.

I bought two cheap ones on eBay and have absolutely zippo for specs. I know that the primary measures around 1.5 ohms, but I can’t seem to get a reading, nor even a continuity test beep out of the HV terminal paired with either of the others. Not much to go on.

These ‘bullet coils’, as they are called, are autotransformers (‘auto’ having nothing to do with ‘automobile’). The case goes nowhere, unless grounded to the chassis of a car. They are constructed differently than a primary/secondary-type transformer. The primary coil is connected in series directly with the secondary, so the positive terminal appears to be the base/tap in the middle. I reworked my ignition coil symbol to reflect, schematically, what’s going on, like so in this latest test circuit:



So it turns out I was not shorting out the HV terminal earlier, by connecting it to the case. I was simply distributing it’s potential to easy places for the other two terminals to arc across.

I did some more tests with loads between positive terminal and HV, and also negative terminal and HV. I found the attraction/potential to be equal in either case. Here’s a nice spark from the + terminal to HV:



Angled this – terminal one so to see streams better:



The sparks were fun, but this lights a fluorescent light bulb rather dimly:



The standard output dimly lit a neon, that’s all.

Before I thought of testing the output with the HV shorted to one of the other terminals I added the other potentiometer and now nothing works, so running that down. Welcome to the thread, penno64, I’m glad you got help from those who have a clue. You haven’t missed out on any expert advice from me

- Godfrey

Great .

That is what make me wonder if it really radiant. Normal stingo can charge 12V battery with 3V source.

Healhty .


You use 3V for spark and neon bulb?

Godfrey,

I tried the last circuit you posted.

Though I left the HDD motor connected, I was still able to connect the car coil
and get sparks.

Thanks so much, this small ciruit is definately fun.

I wonder how this would go driving my slayer coil ?

One way to find out.

I am learing how to reduce the size of video so I can post to you tube.

Kindest Regards, Penno

Keep meaning to ask what transformer you get the most power out of. Can it light a fluorescent bulb brightly?

Yes it is filled w/oil.

My TIP/31/32, small transformer circuit runs very cool at 3V – 4.5V, but the transistors heat up fast at 6V – 9V. Adding the 100 ohm resistor in series with the 10k potentiometer helped cool down the PNP a bit, but the NPN still ran very hot, quickly. I didn’t try a 1k yet, but really: doesn’t it just add more minimum resistance? When I turn up the 10k pot, the transistor heating problem does not go away.

Thanks for the info, 7imix!

I can get my little transformer and this toroid coil to work on either of my Stingo circuits at around 6V. Neither works the very instant I short the secondary. The instant I open up the secondary, the oscillations start again. I can run a load on the secondary like a neon and everything works fine:



Thanks for the video, but I can’t make out how you’re shorting your car coil? Can you show me a photo of your car coil configuration?

When I short out the HV to either terminal of my car coil, like so:



The output barely lights a neon bulb:



I’m still getting the greatest power between the HV and one of the terminals, no short:



Lights a neon brightly:



Here’s a fluorescent lit with optimized output and minimized current draw:



It oscillates at about 3.6 kHz and the wave looks like so:



I made a first go at a MOT, which I was able to get oscillating with the secondary shorted:



The output barely lit a neon. The MOT can oscillate very slowly and gets this kind of wave form:



With the secondary open, it optimizes at 22.7kHz with a completely different shape:



Shorted secondary, no dial change and we have almost the same waveform, but about half the frequency:



Anyone know how to get more out of a MOT like this? I haven’t done anything with the middle tap on the secondary, but it looked like the HV output the way it was wired in the Microwave. BTW, a Microwave power supply is amazingly simple, consisting of one transformer, a big capacitor with an internal resistor and a single rectifier – that’s all.

Well, I’m nonplused with the output I’m getting so far for a battery charger, but I’ve left out the recovery diode or FWBR and capacitor. That may be the key to getting the real power.

I just caught a typo in my schematic. The battery voltage should have been 12V. I fixed that. My car coil is very particular about wanting 12 volts, no less, nor more (well probably up to 14V). It won’t work at 18V.

Glad it was useful. For what it’s worth, here’s a close-up of my PCB with some labels:





BTW, I’m using a 500k VR with a push switch, like a dimmer. I have it jumpered so that the switch toggles this potentiometer into and out of the circuit. Makes comparisons to the simpler version easy.

That would be cool to see. Go for it, dude!

Looking forward to your video posts!

- Godfrey

I just built a slayer coil last night. First I am going to build the normal slayer circuit, then I am going to try it with stingo.

Yes it just adds minimum resistance. That's interesting that the transistor is still hot even with the resistance turned up...


Nice looking spikes.

Nice idea trying a mot. I'll go look for a microwave today to try this.

The iron core is preventing the transformer from oscillating quickly. I'm betting air core coils like the slayer coil are going to be best for our purposes.

The key to getting real power with any impulse circuit: rise as steep as possible, pulse as short as possible, fall as steep as possible, and frequency as high as possible, preferably the resonant frequency of the system. Just go look at any electronics textbook where they graph voltage and current over time during charging and discharging a capacitor and inductor.

Someday soon I am going to do a big blog post with some graphs and actual numbers.

watts = volts * amps, so with ac current the amps are often canceling out the volts and vice versa. With impulse currents the volts and amps are both maximized at the same instant. One has to average in the time that the circuit is off as well, so increasing the frequency (assuming the pulse duration remains the same) increases the overall duty cycle.

Don smith suggests the following equation:

E = (Volts * Amperes) * Frequency^2

Moving to air core coils and increasing the frequency is likely to help boost the useful output quite a bit.

Great idea dude. I see you are isn't a lot of the same radio shack parts I have used in the past

Thanks to everyone putting energy into this thread

Thanks to everyone who has a dream of clean energy systems

Battery Desulphating

Sucahyo, -thanks for the great circuit.

Godfrey, Penno64 , 7imix .-- Great inputs with this circuit.

Can I ask all of you if the Stingo charger will actually charge/desulphate a run down battery of sorts.
I have built a couple of different charging/desulphating circuits which have various pros and cons to them which are much to be desired.
This circuit just might be the ticket though. Any comments will be appreciated.

I'm going to go ahead and get the parts tomorrow and build one anyway but was just curious in the mean time. I'll let you know how I make out with mine.
Thanks again for all your inputs -great info here.--PAR

I get stinged when I put my hand in the circuit. It is now the location of 500K resistor. This circuit can put out 1000V which can hurt a lot ......

I will look forward for that . From 7imix result too .

I suggest that secondary and primary common terminal connected to battery positive. Just in case of headache.

My best is 3 watt but I have problem replicating it. using 9V/230V 1.9A transformer of an old motorola modem adapter. This is full brightness.
YouTube - 3 watt CFL ligther with sting oscillator

Correct voltage multiplication is critical it seems.


I get hot NPN too. I use heatsink and sometimes with a fan. Robert Adams motor is a case where the transistor heat is exceeding input. So I think hot transistor is not really a bad sign.




We lit the neon using coil collapse current of the primary. Same thing with charged battery or other load.

BTW, I found out that I get brighter with shorted secondary only with minimum base resistance (100 ohm).


My charger now consist of two stingo and one imhotep relay charger. Charge a depleted 2500mAh nimh in an hour.

As for desulphating, at least mine broken during over use, not during charging. Keep in mind that we can't restore a badly corroded battery. I have some success with nicad and nimh.

I now modified the FWBR part a little: