Re: [TCML] Using Triggered Gaps, was Designing a Coil Around a SRSG

[Jim Lux <jimlux@xxxxxxxxxxxxx>]

On 3/23/13 9:03 AM, Futuret wrote:
> I experimented with two methods that used an automotive
> ignition coil to trigger the cap using a centrally located
> tungsten rod placed halfway between the main static gap.

I've tried the disk with a hole in it ( a washer) between two 
electrodes.  It worked ok, but eventually, I found the axial trigger 
electrode seemed to work better. You can adjust where the tip of the 
tungsten electrode is: I used it roughly even with the surface of the 
pipe cap with a hole in it.  I ran compressed air along side the 
tungsten, so when it fires, it blows ions into the gap (and cools the 
electrode, too)

> One method supplied voltage to the ignition coil to create
> the HV pulse, the other method removed voltage from
> the coil to create the pulse (inductive kick).  Both methods
> worked and I controlled the timing using a lamp-dimmer
> type triac/diac phase controller to time the spark.  (I used
> phase angle to trigger time-wise, not voltage.)  Both
> methods were a little touchy to adjust and were at the
> edge of their ranges for best results.


Touchy is right.. I had a tough time getting it consistent.  Probably 
because as you run, things get warm and change the properties.

That's why I started thinking about something more like a car capacitive 
discharge.. I have a variety of strobe circuits (charge cap with 400V 
DC, then fire using a SCR) that I started to use, but I blew a couple 
up, and then I ran out of time to finish it.

Every once in a while I look at the autoparts catalogs and think there 
must be some inexpensive ($20 ish) piece that could be repurposed here. 
 Electronic points replacements, even.  Somewhere in a junk box, I have 
a bunch of HV transistors designed to work with the (obsolete) motorola 
electronic ignition driver (very high BVceo, darlington pair, good 
avalanche properties so that a breakdown doesn't destroy the part).

Maybe something like a filament transformer run backwards as a trigger 
pulse transformer going to the car coil would work.  You need a fair 
amount of energy (100 mJ to a joule) to get a healthy spark, so it's not 
a "low power" device (a joule * 120 BPS is 120 Watts... )



 This was based
> on work that Mark Metlica did years ago, and John
> Tebbs also did some designing on the inductive kick
> method if I remember correctly.  This work should all
> be in the Pupman archives.  I had to set the main gap
> about 5/8" to 3/4" wide to prevent premature firing
> using a 12/30 NST.  I did these triggered static gap
> tests using my TT-42 coil which normally ran with a
> 120 bps synchronous rotary gap.
>
>     Jim wrote:
>
> "On this basis, one would expect a single triggered gap with long path to be
> better than a multigap."
>
>
> I agree.
>
> Cheers,
> John Freau
>
>
>
>
>
>
>
>
>
> -----Original Message-----
> From: Scott Moseley <scott@xxxxxxxxxx>
> To: Tesla Coil Mailing List <tesla@xxxxxxxxxx>
> Sent: Sat, Mar 23, 2013 11:34 am
> Subject: RE: [TCML] Designing a Coil Around a SRSG
>
>
> Has anyone come up with a  good electrically triggered gap yet?  Maybe something
> that uses magnetic quenching?  If so, then you could sense the voltage across
> the cap, and then set a firing voltage.
>
> -----Original Message-----
> From: tesla-bounces@xxxxxxxxxx [mailto:tesla-bounces@xxxxxxxxxx] On Behalf Of
> Jim Lux
> Sent: Saturday, March 23, 2013 11:31 AM
> To: Tesla Coil Mailing List
> Subject: Re: [TCML] Designing a Coil Around a SRSG
>
> On 3/23/13 8:12 AM, Futuret wrote:
> > contributes to longer sparks.  It is possible to achieve just as good
> > results using a static gap, but it has to be a triggered static gap.
> > Interestingly, in my tests, the triggered gap was very loud and bright
> > due to the wide gap spacing which had to be used to prevent premature
> > firing.
>
>    All this noise and light didn't noticeably reduce the spark length
> > however, as I obtained the same spark length in both cases.
>
> I think this makes sense.  The voltage drop (loss) across a gap is a combination
> of the 50-100V cathode drop and then the ohmic loss in the spark itself. For a
> reasonably high current arc, I'll bet the ohmic doesn't change all that much
> between, say, 3 and 10 mm.
>
> On this basis, one would expect a single triggered gap with long path to be
> better than a multigap.
>
> Somewhere back in the archives, I know this has been discussed..
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