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Re: Why does top capacitance work? (fwd)
---------- Forwarded message ----------
Date: Mon, 24 Feb 1997 11:05:07 +1200
From: Malcolm Watts <MALCOLM-at-directorate.wnp.ac.nz>
To: mod1-at-pupman-dot-com
Subject: Re: Why does top capacitance work? (fwd)
Hi Ed, all,
<snip>
> > voltage. Ultimately, it IS power which governs ultimate streamer length.
> >
> > Certainly your last point is true, although Wysock and Cox's coils tend
> > to have BIG tank caps, small primary inductance and small top
> > dischargers -- Adding tank capacitance alone seems to be sufficient for
> > BIG streamers on larger coils.
> >
> > Looks like there are still lots of mysteries to be solved! BTW, what do
> > you do for a living that lets you play with these nice toys?? :^)
> >
> > -- Bert --
>
> This is something that I am hoping to investigate. It is not true
> that all systems will benefit from extra capacitance in the primary
> system. One very experienced coiler reported that increasing his Cp
> from 0.1uF to 0.2uF resulted only in burning up the gap faster with
> no extra output length (power went from 25kW to 50kW). Others have
> also noted this effect. The question then is: why does doing this
> benefit some systems and not others? I earlier suggested that this
> might well be a function of the secondary characteristics and that
> there is an ideal primary configuration for a particular secondary. I
> will be looking for evidence of this in the coil design notes kindly
> sent to me by some list members.
>
> Malcolm
> >>
> Malcom,
>
> Is it possible that this is the same phenomena as just adding more power to a
> given system and getting little or no increase in output? I have reached
> that point with my 6" dia coil. Once you get up to about 4kva in, adding
> power up to about 7kva results in little increase in output. I believe there
> is a power or performance curve for any given coil system that is based
> primarily on the physical size of the secondary - given a well designed
> system, i.e. good primary, in tune, good quenching gaps, good Q, etc. As you
> would expect, the curve starts out rather steep where doubling the input
> power results in considerable increase in output (discharge length). Then
> gets to a point where the curve gets quite flat and little output increase
> can be had even by doubling the input power.
>
> Comments?
>
> Ed Sonderman
That is exactly it. Doesn't make much sense from the angles we've
been exploring so far does it? With a bit of luck I might just find
out why when I have completed the exercise which will still take a
couple of weeks. I have over thirty designs to analyse thanks to
everyone and there is much calculation needed to extract the
quantities which I am examining - in fact the chart I am drawing up
is enormous.
In the meantime, I seriously suggest going to a terminal,
not necessarily with more capacitance, but a much bigger radius of
curvature. I suspect the limit has to do with the degree of output
ionization reaching that which imposes more-or less continuous
loading on the secondary. I consider this to be very important, so
much so that I am currently building a terminal for my large
resonator (and smaller ones) that has exactly that attribute. For
toroid makers out there, I am talking about the diameter of the pipe
from which the toroid is made, not the actual toroid diameter. The
limit for ROC is a sphereoid shape.
Malcolm