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Re: [TCML] Newbie Grounding Question

Hi Terry,
(I've rambled here a little, sorry about that - I'm currently on holiday!),
Field control I work on by changing toroid size (ROC, diameter, and height). I like to build toroids which are wider than the primary in their outer edge size. I typically have found that a toroid outer diameter works well when the center to center outer diameter is equal or greater than the primary outer turn. Changing the radius of curvature (the minor diameter) will change the breakout voltage. The minor and major diameters should be kept within reason. The minor diameter should be larger than the secondary diameter.
Toroid elevation above the ground plane is important. As far as moving the toroid above the secondary, this is good to do but not so far above the secondary that corona develops on the top turns. Another field control situation is using a corona ring just above the secondary allowing the main toroid to be adjusted even higher above the secondary. My main adjustment is the toroid above the ground plane. Not only the toroid, but the entire coil itself. You don't want the primary next to floor.
It's a trial and error adjustment and if you only have 1 toroid, you have to the best with what you have. Toroids are difficult to build. When I stick to some of the above conventions, I get good field control with just some elevation adjustments. Tuning really should be a little high on inductance about 5% above the resonant value. When sparks break out, the sparks themselves add a slight loading which can result in the need for a little added primary inductance to stay in resonance with the resonator as it changes with the spark breakout. Coils really do run smoother, less racing sparks, etc.. with added primary inductance.
A nice smooth toroid surface is very helpful as well to keep the breakout voltage as constant as possible. Sparks will want to rise upward if possible by the thermal rise of the spark channel. But if the ground plane is near, it will head down. The sparks are no different electrically than any other conductor. They "will" seek out the lowest impedance - period. As sparks are given more power, they will issue further out from the top terminal. As they do that, the ground planes impedance becomes more and more apparent, so eventually, sparks will seek the floor. Hopefully, it is far enough away from the primary. If the coil is low to floor, it will seek out the primary more often at even lower power, and the primary can be seen as a nice low impedance target.
I keep my coils primary usually 30" or higher above the floor. Field control is opinionated and have my opinions like everyone. It's not an area that has been discussed much on the list. From my personal experience, elevation above ground is one of the major factors.
Something I have noticed. If sparks have just enough power to hit the primary and nothing else, there will be more primary strike occurrences. In this case, toroid diameter can be very helpful to keep the sparks at bay. Also, larger ROC helps in this situation. Sparks will always start about 20 degrees above the horizontal center of the toroid. The larger ROC helps in this regard. If the ROC is large and smooth, a single streamer at any one time is the result. This is kind of cool. I've had single streamers move almost halfway around the toroid before another streamer issued elsewhere. Kind of a cool thing to watch. That particular case took a large 9" x 30" toroid on a 4.5" diameter secondary: 3 coil TC (not a true maggy as all 3 coils were magnetically coupled). But amazing to break out of that size top load on such a small coil. 

Take care,
Bart


Terry Oxandale wrote:

<But first I would try to get some field control on the sparks
themselves.

Take care,
Bart>

Could you expand on this control and how it is affected?

Un-Terry




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