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Re: [TCML] Synchronous Gap understanding

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Subject: Re: [TCML] Synchronous Gap understanding
From: Carl Noggle <cn8@xxxxxxx>
Date: Fri, 06 Feb 2015 08:29:52 -0700
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Good discussion, but I would think that the only thing that controls thefiring time is the spacing of the gap. It would seem that it would begood to have the firing a little before minimum distance (we used tocall it top dead center) for less jitter. But I have a blownstationary gap, so when it comes to synch gaps I am only an egg, asMichael Valentine Smith would say. Am I grokking this right?

(My dad also used to say that there is no such thing as a sillyquestion. One day I asked him why there is no such thing as a sillyquestion. He said, "Well, that's a silly question.")


(Should send a copy of this to Kurt Goedel.)

---Carl




On 2/6/2015 6:17 AM, David wrote:

Thanks Scott - Hmmm ,,, So If I understand you, you are saying thatthe gap begins to fire when the moving electrode is approaching thestill electrode (_before_ alignment) , do to the high voltage on thecap, and not _at_ or _afte__r_ alignment. And that the Freaucontroller delays, as apposed to advancing, the 60hz phase to the syncmotor so as to delay the arrival of the moving electrode to firingspot, There by allowing adjustment to the optimal firing point justafter peak voltage on the cap.
Dave

On 2/5/2015 12:38 PM, Scott Bogard wrote:
Not quite...
Pretend for a moment, you live in a perfect world. In this perfectworld,
the spark gap arcs, at the precise moment where spark gap electrodes are
perfectly aligned.  In this world, a Freu controller will allow us to
change the level of charge in the tank capacitor, by changing thepoint in
time where those electrodes align.  Ideally we want that firing to occur
when the input AC cycle is at it's highest, because if we do itsooner, the
tank cap has more charging to do, and if we do it later, the tank cap is
discharging back into the transformers and hence the line.  This has
nothing to do with the spacing that the arc stretches across.
But we don't live in a perfect world... In reality the electrodes doarcearly, because they are impatient, and as soon as they get closeenough to
arc static gap style, they do.  To compensate for this we use our Freu
controller to set the system out of phase by a degree or two, so thatwhen
that premature arcing occurs, is exactly at the peak of the AC input
cycle.  The adventurous (with a huge budget, and a strong will for
efficiency) will design spark gaps with enough gaps in series so thatthepremature arc is almost not premature at all. This way as soon asyour arc
occurs (at perfect alignment), it is getting stretched LONGER and can
quench faster, which traps more energy in the secondary. I hope thishelps
clear things up a bit, and remember, there are no silly questions...

On Thu, Feb 5, 2015 at 11:36 AM, David <zipo@xxxxxxxxxxx> wrote:
Hello every one - I just wanted to double check my understanding of how
the electrodes "close" in a sync gap .
If I understand this correctly, a sync gap fires as the movingelectrodeapproaches the stationary electrode, by the arcing distance of thevoltageon the cap and not when the the electrode is moving away? Right? AndtheJohn Freau phase controller delays the arrival of the movingelectrode so
as to increase the distance to the stationary electrode, there by
increasing the voltage on the cap? Is this correct?
I know these are silly questions but I just want to be absolutelysure I
under stand this correctly.

Thanks
Dave

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References:
- [TCML] Synchronous Gap understanding
  - From: David
- Re: [TCML] Synchronous Gap understanding
  - From: Scott Bogard

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