Re: 4 Inch tesla coil - Inquiries

["Tesla list" <tesla@xxxxxxxxxx>]

Original poster: "resonance" <resonance@xxxxxxxxxxxx>



If you have access to a signal generator and an oscilloscope you can 
accurately tune your coil manually.  Attach a 30 inch long wire to 
the sec coil's toroid to simulate the 1 pF/ft capacitance of the 
spark channel. Wrap 2 turns around the bottom of the sec and drive 
with a signal generator capable of outputting at least 10 Volts peak 
to peak (older sig gens are better).  Scope pickup probe is a wire 
approx 2 inches away from the toroid.

You can find the resonant freq of the sec with toroid and simulated 
spark channel in this manner.

Then, short out your spark gap with a jumper and check the resonant 
freq of the primary to match the sec resonant freq.  Your actual 
tuning point should be within 1/8 turn or less of this resonance.

I will send you a sketch off-list.

Dr. Resonance




> Original poster: "Hydrogen18" <hydrogen18@xxxxxxxxxxxxx>
>
> I've got a 4 inch tesla coil that I've pulled out of storage and set 
> about improving and trying to make into a more logical setup. Specs 
> are as follows
>
> Secondary - 4 inch Schedule 80 pipe, 1500 turns 28 awg, 18 inches long
>
> Primary - Coil of 1/4 inch copper pipe, about 13 turns worth. laid 
> out flat and zip tied to plexiglass. 1/4 spacing between turns. 
> about 2 foot overall diameter.
>
> Spark gap - Static style, 1 inch spherical brass drawer pulls 
> mounted to 1/2 inch copper pipe. This can be adjusted really easily. 
> A cheap blower supposedly running at 25000 rpm blows alot of air in 
> an uncontrolled fashion across these. They get pretty dang hot, but 
> the arc seems to be quenched pretty well, although I have no first 
> hand experience with spark gaps outside of my own design.
>
> Topload - 12 inch toroidish thing with a section of 4 inch dryer 
> duct stacked around it. Seems to discourage primary strikes pretty 
> well, although it was designed for such
>
> Tank Cap - 942C20P15K's(2000 VDC 0.15MFD) in strings of 8, up to 3 
> strings of these in paralell(plenty more strings ready to be 
> assembled). Mounted in a wooden box but the capacitors themselves 
> are in 180 degree sections of PVC pipe for insulation. Connection is 
> made at all junctions to the strings by means of 1/4-20 brass bolt.
>
> Power supply - 4 MOTS producing around 9500 volts RMC AC, current is 
> limited by 10 lbs 10 AWG wrapped around a 3 inch piece of Schedule 
> 80 with an adjustable iron core(I have also left the shunts in the 
> MOTS, as I see no need to drive them as hard as some people do; mine 
> are not under oil but epoxy potted). Driven by a 30 Amp 240 VAC 
> outlet, I do not feel this is the limitation in my setup.
>
> So far my recent attempts have yielded point to point strikes of 28 
> inches or more; longer arcs accounting for the bend. That was with 2 
> capacitor strings. Attempting to use 3 capacitor strings seems to 
> make finding a tuning point impossible, all I suceeded in doing was 
> getting the primary so hot I burned myself(this was in just a second 
> or so of having the spark gap firing). I am dumb tuning this coil, 
> just starting at turn one and moving out until I get a large 
> response, and then making smaller movements from there. I've made 
> the following conclusions:
>
> - Steel anywhere in the primary circuit basically destroys 
> performance and likes to get really hot.
> - Tuning seems to be very pecuilar on a lower coupling coil(I had 3 
> inch coil in the past with 'high' coupling between the primary and 
> secondary, you could make turns of adjustment to the primary without 
> noticeable output in spark).
> - The charging current available to the coil doesnt seem to affect 
> things much, other than the spark gap getting louder.
> - This spark gap is better than the last, because I don't have to 
> wait for it to cool down between runs. It takes a very long time run 
> time for the initial breakdown voltage to change due to tempature of 
> the electrodes. They are hotter than a car brake rotor at the parts 
> you can observe, but I suspect where it matters they are remaining 
> cool. They also dont require a resurfacing every 30 seconds of runtime.
>
> And I've got these concerns:
>
> - My primary is very poor. The spacing is nonuniform. I think tuning 
> is changing because the turns are not held very securely.
> - Should I add another gap to my static spark gap? Are there any 
> telltale signs of an overloaded static power gap? I know that the 
> signs of a 'power arc'(the deep orange-reddish arc that does not 
> quench) or rapid electrode erosion are two to look for, and I have neither.
> - I have a safety gap on my transformer, so I'm not concerned about 
> opening my spark gap up too much. But is there a primary side side 
> RMS VAC that I shouid aim to have the spark gap breakdown at?
>
> My questions are from here:
>
> - Should I bother improving the primary? I'm not getting turn to 
> turn arcing, it's the inconsistency of the shape that's my concern.
> - What's the maximum size capacitor for this coil I can reasonably 
> expect to run?(I know my limitation is the spark gap, and probably 
> will be for all my coiling years given the easy availability of 
> large dangerous HV transformers)
> - Why is my primary getting so darn hot? Is off resonance driving of 
> the coil the cause of this?
> - Is there a better(intelligent, mathematical) method of tuning the 
> coil I can employ?
> - What kind of spark length performance should I expect from this coil?
> - Any other obvious mistakes?