I did some measurements on the spike duration. On my first coil with the secondary shorted and no load, the spike duration was 12usec. The highest voltage on the low voltage side was 29 volts as calculated by my meter, but it must be performing rms calculation on it because the scope is way off the charts on the spikes. The scope goes to 100 volts. The voltage fell off as i adjusted frequency to either side, so I figure that must be the resonant frequency of the coil. The frequency is 7.5khz.

On my other coil, I couldn't get it to oscillate with the secondary shorted. With the secondary open, the spike had a much gentler downslope and the spike duration was therefore 70us. The peak voltage was 45 volts and the resonant frequency was 1khz.

Can you tell us how you were able to adjust
the frequency in order to find "resonance?"




The "Stingo" circuit is a very good example of how,
with a little creativity, a fairly simple and fun device
can be put together with commonly available parts.

If an automotive ignition coil isn't available then
virtually any transformer with a low voltage secondary
winding could be used in its place.

Not only is the "inductive kick-back" of the driven
winding useful; the high voltage produced in the
"secondary" may also be "tapped into."

Sucahyo has come up with a "stepping stone" to some
very interesting possibilities for the experimenter.

Thanks. I am not sure if it is resonance frequency of the coil, It maybe just the resonance of all component. Try it with load too.

Thanks. You may need to try to replace the 100K resistor with potentiometer.

I found that different coil or load need different combination of all three resistance.

When the potentiometers in the stingo circuits are changed, the frequency of impulses going into the coil changes. In The borderlands video "transverse and longitudinal waves" Eric Dollard demonstrates how sending the output of an audio waveform generator through a power amp through a coil at certain frequencies causes it to reflect at a certain phase. When the phase of the reflection from the coil matches the phase of the audio output, the system is in resonance and the voltage is at it's maximum. When the frequency increases or decreases from this point the voltage drops.

Check out the Eric dollard videos if you haven't seen them, they are amazing.

Yes, its the resonance of all components. With load the frequency range available is different and the resonant frequency is different.

I'll try a pot.

Thanks!

Simplified test circuit?

Thanks for the nice videos, 7imix. I’m really psyched to see your oscilloscope work. My DSO Nano just arrived in the mail today. For the price, the sampling rate is very respectable. What HV probes are you using? Did you have to do anything tricky to adapt them to your Nano? I was able to see square wave output and measure frequency from a 555 timer circuit right away. I tried capturing wave output to Micro SD card, but was not able to get it to work. Have you had any luck with data storage? The documentation seems pretty sparse. Is there a good website for more information on it?

I’ve only got the 1x mini probes to work with so I’ve got to be careful measuring HV circuits.

Is it possible, Sucahyo, to remove the coil and isolate the oscillator part of the circuit for testing with 1x probes to see the square waves? Or is the coil necessary for oscillation to work?

- Godfrey

I forgotto add. Try to change the 1K resistor with 100 ohm. hotter transistor but will force oscillation more.

Yes, the coil is necessary. Can't you test it on PNP output?

You're welcome. Glad you like the DSO Nano. I like it a lot. We should get sucahyo one

I'm not actually using HV probes with the scope. I hook it up to the low voltage side. The spikes go way over it's range, but as long as the spike is nice and short I believe it won't hurt it. Mine is still working fine after using it a lot in this way.

i have a fluke HV probe. They have a 4000V one (100V divider) and a 40000V one (1000V divider). I have the 40000V one. It's just a voltage divider with a really big resistor in it. It wouldn't be too hard to make one assuming you can find a really huge resistor. Can probably find one in a microwave or buy one online. The voltage divider resistor goes to ground.

You have to create files of the appropriate name on the SD card before you can save to those files. It's able to save to files, but not create them. Lame. Read the docs, it's in there.

The coil is what makes the whole thing oscillate... Try finding a brushed DC motor and making the motor stingo variant, the coil is a lot smaller and therefore so are the spikes.

But, don't worry, I've measured a lot of HV spikes with it and haven't had problems. As long as it's not DC or sine wave AC high voltage I'm guessing it will be fine.

Take some pictures and some video of your setup

Cool, thanks. Weren't you suggesting I replace the fixed resistor with a potentiometer though?

Two suggestion. Replacing 100K with potentiometer, and replacing 1K with 100 ohm.

Great, thanks for the clarification.

3V test circuit wave forms

My storage problems are more involved. I have a SanDisk 2G Micro SD card which I’ve tried formatting in both FAT16 and FAT32.
I’ve tried it with one full partition and divided into 2 partitions both under 1G. I created the blank files over and over.
The same thing happens. The Nano doesn’t find the files and after I’ve put the SD card in once, it clobbers the format and
partition.

In your docs, maybe. The manual I downloaded from the vendor is barely English. The Seeed manual doesn’t help much because the interface is so different. I only found out about the file creation thing looking through Seeed’s user forum.

I haven’t yet updated my firmware s/w, but am having problems getting the USB drivers that are compatible with my laptop. I was wondering if the Seeed firmware would work on my DSO Nano clone. The site which had the firmware download makes it clear that it’s only a demo. Any place you could direct me for further help, 7imix?

I’ve got Stingo waveforms and a test bed to show. I’m stuck for the time being doing scope shots the old fashioned way with a camera. And I don’t have a good digital video cam yet either.

Good simplification idea. I didn’t have any luck with the DC motors I could find around. I have computer fans and may give the last circuit Sucahyo posted in that thread a try later. For now, I was able to get a smaller transformer from a computer power supply working with 3V (2 AAA batteries). Here is a schematic showing an LED as the load:



My setup:



I got the circuit oscillating without any load at all and the secondary open. Without a load, shorting out the secondary completely kills the oscillation and shows a DC output. I haven’t tried a regular load and closed secondary yet.

The lowest potentiometer setting produces a frequency above 2kHz. The wave is very noisy/ringy. The highest potentiometer setting gives a frequency of under 1kHz and the pulses are much sharper.

No load/open secondary scope results – knob left - lowest resistance/higher frequency:



Knob right - highest resistance /lower frequency:



It oscillates with an LED across the secondary. The LED lights dimly:



Greatest brightness fine-tuned 2/3 up the knob, oscillating at 1kHz:



When the LED is the regular load, it burns so brightly that it hurts to look at directly:



Greatest brightness fine-tuned within first 1/3 of knob, oscillating at 1.78kHz:



The point of the exercise was to have a scaled down and portable Stingo to look at with without heavy voltage or bulky coils involved. I’ve yet to do any current/load measurements but thought this was interesting.

- Godfrey

Multi Stingo Circuit?

Keep meaning to ask you how that circuit would look. Are you just talking about two Stingos joined at the output to an FWBR? Or something more complicated?

If more complicated, do you have a schematic to show?

- Godfrey

Thanks for the scope shot .

Are you sure you don't put the LED backward? I think you should get brighter LED or even kill it if you reverse it. Mine reach 50V.


Complicated. Here is an example of combining two:


Three:



Ignore the circuit, just put attention to the wire after the coil going to charged battery.

I have firmware version 2.02. I haven't tried actually saving any waveforms yet, I'll try it and let you know if it worked.

What clone do you have?

Awesome, great shots, thanks.

Yeah you need to use brushed motors. Computer fans have a little board that actually generates ac to drive the motor. Try a cheap toy, like maybe some rc slot cars or something.

Thanks for the idea about using a smaller transformer. I played around with this a bit and enjoyed it a lot. I will do some more detailed measurements and report about them tomorrow.

I finished my fourth stingo build yesterday. I'll take some pictures and post them soon. It came out very nice and compact. I'm going to wind an air coil for it and see how high the frequency can go. I can't decide how to wind the coil yet... Bifilar pancake coil I think.