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RE: Question about ballasting and VA
Hi Bart,
I'm not even sure what I am trying to say, probably shouldn't be wasting
bandwidth...
I'm in over my head here. I haven't studied it enough or ran any
simulations. I'm fortunate enough to hang out with some guys who run big
coils and operating procedures made me rethink what the series variable
inductor that everyone calls the "current limiting" variac is doing.
The current limiting variac certainly doesn't behave as a big Tesla Coil
"dimmer". There is a definite "sweet spot" on the variac that seems almost
magical. Richie's variable inductor report is outstanding (as usual), but
I'm not convinced that this is the same phenomena that is making the big
coils run smoothly.
I was hoping that some modeling had been done in this area or that someone
had an intuitive explanation that my simple mind could grasp.
Thanks,
Ross-O
-----Original Message-----
From: Tesla List [mailto:tesla-at-pupman-dot-com]
Sent: Wednesday, March 01, 2000 10:26 AM
To: tesla-at-pupman-dot-com
Subject: Re: Question about ballasting and VA
Original Poster: "Barton B. Anderson" <tesla123-at-pacbell-dot-net>
Original Poster: "Ross Overstreet" <ross-o-at-mindspring-dot-com>
Hi Ross,
Just got a quick question (clarification):
I think I understand what your trying to say, but correct
me if I'm wrong: "The reactor acts as an impedance matching
device "because" spark length has a maximum current condition
where no further increase in ballast current will increase spark
length?".
Thanks,
Bart
<snips>I used to think that inductive ballasting works by adding Z in
series with
the primary of the transformer. Now I think that this is of secondary
importance. I currently lean towards the idea that the series inductance
allows one to adjust the Z of the transformer so it is a much better match
to the line. I think that it has more in common with "setting the SWR" of
the system than just adding series inductive reactance.