Re: [TCML] primary voltage

[Brandon Hendershot <mrbrandman@xxxxxxx>]

Hi David,

It seems we have a little misunderstanding, when I said 36kV, I was  
talking about my tank cap (voltage into the primary coil itself). I am  
currently running on a 15/30 NST. Sorry about that, I was under the  
impression we were talking about the voltage going into the primary  
'coil', not the primary circuit entirely.

So, I should be alright as far as having to throw in corona  
suppression, eh, thingys? Hahaha

On Jan 7, 2010, at 4:54 PM, "David Rieben" <drieben@xxxxxxxxxxx> wrote:

> Hi Brandon,
>
> Matt was NOT saying that you CAN'T operate a Tesla coil with primary  
> voltage in this range, he was simply citing the chal-
> lenges associated with using the higher voltages (and he is 100%
> correct). Scot (bunykiller) does operate his coil with up to 32 kV  
> primary voltage and he has also cited some of these
> same challenges that he had to overcome to operate his coil
> like this. If you already have a 36 kV transformer and it is the
> major cost of your system, then I would say go ahead and go
> for it, assuming that you can also obtain/purchase capacitor(s)
> that will handily withstand that much voltage. Just be aware
> of the difficulties involved with using primary circuit voltages of   
> >20 kV.
>
> David Rieben
>
> ----- Original Message ----- From: "Brandon Hendershot" <mrbrandman@xxxxxxx 
> >
> To: "Tesla Coil Mailing List" <tesla@xxxxxxxxxx>
> Sent: Thursday, January 07, 2010 5:32 PM
> Subject: Re: [TCML] primary voltage
>
>
> > Hi Matt,
> > Reading your post was kind of disturbing! You said all that  
> > happens  somewhere inbetween 30 and 100 kV?Is there a tighter more  
> > precise  range you know of? Because my coils primary circuit  
> > voltage will be  hovering around 36kV. Should I be too worried  
> > about insulating every  little point and wire? If it matters at  
> > all, I'm installing a Terry  filter too. Those chunky resistors  
> > won't affect the issue much I assume?
> > Thanks,
> > Brandon
> > On Jan 7, 2010, at 1:13 PM, mddeming@xxxxxxx wrote:
> > > Hi Kevin,
> > >
> > > While some people have experimented with primary voltages in to   
> > > 30-100 kV range, there are several distinct problems with primary   
> > > voltages much above 15 kV (rms).
> > > 1) Costs: The number of caps in an MMC goes up as the square of  
> > > the  voltage (twice V = 4 x number of caps). Above ~15 kV you are  
> > > also  talking custom-made transformers: Cost and weight increase   
> > > exponentially with voltage.
> > > 2) Corona problems: above about 20 kV, every point, twist, kink,   
> > > bend, or screw head in the primary wiring becomes a source of  
> > > corona  leakage which is power lost.(but the blue glow looks  
> > > "cool".to  some). These losses increase rapidly with voltage level.
> > > 3) Insulation  breakdown: most HV wire tops out at 30-40 kV then  
> > > you  start needing to get into X-ray equipment cables, or custom,  
> > > or home- made cables made from coax. Even wire run through plastic  
> > > tubing  starts to have problems at higher voltages.
> > > 4) Unintended Coupling: as voltages go up, there is an ever   
> > > increasing tendency of currents in the wire to couple  
> > > capacitively  or inductively to nearby objects and power,  
> > > telephone,etc. lines,  charging them to "unpleasant" levels and  
> > > wasting spark energy doing  it.
> > >
> > > In short, it is much more cost, weight, and safety efficient to  
> > > keep  primary voltages at the level of mass-produced transformers  
> > > and  minimize the number of caps needed to still keep a good  
> > > working  margin.
> > >
> > > Hope this helps,
> > >
> > > Matt D.
>
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