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Re: Static Gap Break Rates

To: tesla@xxxxxxxxxx
Subject: Re: Static Gap Break Rates
From: "Tesla list" <tesla@xxxxxxxxxx>
Date: Tue, 14 Mar 2006 21:35:32 -0700
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Original poster: "Barton B. Anderson" <bartb@xxxxxxxxxxxxxxxx>

Hi Curt,

Excellent question. If we assume 120 bps is a properly set gap wherethe gap width sets the arc voltage, then the tank capacitance,charging voltage, and charging current will determine how fast thearc voltage will be reached to achieve 120 BPS during the time domainof the charging frequency. If the current is large enough, the capcan attain the arc voltage many times during the first 1/2 cycle. Inthe same respect, the current can also be so small that it may takeseveral cycles to reach the arc voltage. The arc voltage time "IS"the BPS determinant.

In the real world, there are other factors that are not accounted forwhich affect the charging voltage and time domain. One factor isresonant charging. This is something that Gerry and I have beenmulling over the past few weeks (how to account for it with somedegree of accuracy). For now, it is not fully accounted (although, Rsand Rp measurement inputs help impedance accuracy. There may beresonant charging occurring depending on transformer and actual capsize. Bps is affected by this. It may be that the NST coupling may beneeded as an input. This would obviously be one of those optionalinputs. I can envision a help file for "how to measure transformercoupling" for those who wish to attain higher accuracy (shouldcoupling be needed). Let's face it, there is information thatrequires measurement if we want to attain higher accuracy in our predictions.

On this same topic, I recently posted NST coupling inquiries anddata. The reason I asked how to and then measured was to simulateresonance situations with different cap sizes, but while simulating,I found the NST coupling was critical in the model which stopped mein my tracks (because I first used a typical NST coupling value).After measuring and inserting the measured NST k value, the model nowpredicts resonance where it should be. One "cannot" assume a typicalNST coupling value in this type of simulation (in other simulations,it may be of no consequence), but for this study, it is important.For example, a difference of 0.95 and 0.93 can easily mean a 30%error (no kidding!). There is a lot of study and "figuring out" to bedone before this gets into Javatc.


Take care,
Bart

Tesla list wrote:

Original poster: "C. Sibley" <a37chevy@xxxxxxxxx>

In a discussion today I realized that I can't explain
some assumptions I've accepted regarding static spark
gaps.

I've run a lot of designs through JAVATC and have
accepted that the break rate increases as current
increases (assuming all other things remain same).
Depending on the current available the capacitor
charges quicker and the break rate goes up.  What I
can't come to terms with is break rates in excess of
120Hz.  Wouldn't the 60Hz input limit the break rate
to 120Hz for a properly set gap?  Based upon
experience I realizes there must be more going on than
just a simple RC circuit charging a capacitor. Am I
missing the point?

Thanks,

Curt.


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