On 12/21/12 4:38 AM, Derek, Extreme Electronics wrote:
Cole,
Make a large coil with a large top-load and don't let it break
out..
e.g Design your coil like an antenna...
Just a word of warning, what you describe is a radio transmitter.
Tesla coils usually sneak under the radar as their secondries / toploads
make poor RF radiators and a spark / arc kills the emissions further
still. As soon as you create a coil with a maximised field you are
likely to cause interference and be hunted by the authorities.
This isn't actually true.. you can have a very high field in a small
space and it doesn't radiate very well. Consider, for example, the
field in a spark plug: a gap of 1mm with a voltage of 40kV is a field
of 40MV/meter (well above breakdown of air, because the gas inside an
engine cylinder is compressed, so it's breakdown is correspondingly
higher)
What you're thinking of is "radiated field", and given the incredibly
small size (compared to wavelength of, say, 3km) of even a huge tesla
coil, it is not an effective *radiator*, even though the field near
the coil is quite high.
While the near field near a coil can be quite intense, it's pretty
well contained and doesn't radiate.
Put it in a Faraday cage to protect yourself from a knock on the
door..
I would venture to say that no tesla coiler has ever gotten a "knock
on the door" from the FCC or comparable radio regulatory authority.
Angry neighbor, perhaps, but more because of acoustic noise or fear of
sparks, than because of EMI.
_______________________________________________
Tesla mailing list
Tesla@xxxxxxxxxx
http://www.pupman.com/mailman/listinfo/tesla