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Re: [TCML] Solid state efficiency, was: mini Tesla coil specs

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Subject: Re: [TCML] Solid state efficiency, was: mini Tesla coil specs
From: Ken or Doris Herrick <kchdlh@xxxxxxxxx>
Date: Sun, 15 Nov 2009 14:55:37 -0800
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This is getting curiouser & curiouser. I've now simulated a spark load:50 us duration & into 10K to gnd. Using secondary feedback to establishoscillation as I have been doing, and the non-resonant primary,I find Iget a whopping primary-current surge during the spark event.

Surprise, surprise!...that's from the (to be expected, dummy!) bigglitch in secondary current.

/However/... As I recall from my first experience some years back, Inoticed no such surge; checking the secondary's return-current on thescope; there was essentially no change. Perhaps 10K is too low animpedance for the spark? So...I increase it to 100K with a mouse-clickor 2 and find a negligible glitch during the "spark". So what's thebetter simulation of spark impedance, I wonder?--10K or 100?


KCH

-------- Original Message --------
Subject: 	Re: [TCML] Solid state efficiency, was: mini Tesla coil specs]
Date: 	Sun, 15 Nov 2009 13:43:44 -0800
From: 	Ken or Doris Herrick <kchdlh@xxxxxxxxx>
To: 	Tesla Coil Mailing List <tesla@xxxxxxxxxx>

So almost immediately...a follow-up: Belatedly I thought to resonatethe primary & try it again. This time, a) the current's a sine-wave allthe way; but b) switching /starts out /near current/ /z.c/./ and afterabout 4 cycles it's shifted to current-peaks, where it stays. Thecurrent is, of course, a lot greater due to the series-resonance,causing the secondary's output to rise faster.

But a) where's the advantage, if switching drifts toward current-peak.And b) how to handle the greater current? (Bigger hardware, that's how!)

And finally: Whichever way one goes, it seems as if one will have toput up with switching near current-peaks--unless one can produce thespark within the 1st 4 cycles or so in a DR design. I haven't simulatedthat yet.


Comments?

KCH

[SNIPPED]

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