Here then
> apparently it then takes 7.5 times that value to enable
> the quenched blinking process. The Q of the series resonance
> being 15 is cut in half to 7.5 to enable the load of the
> blinking neon.
> HDN
In contrast with the loss of Q factor on one side, the weaker side not yet
selected for a neon discharge to earth, gains in its q factor and conduction.
In this model the coils for each side are spaced over 1 ft apart, but luckily
another set has been tuned for close proximity to very close tuning using 75
nf. The systems there are in the 90 H range on both sides, but they are tuned
for mutual coupling. What this implies is that when one station establishes a
"woodpecker signal" from half of the mutual induction, the collapse of field on
one side creates a higher voltage on its counterpart side which in turn could
be sent as a neon discharge to a more distant tower as the counterpart
woodpecker signal of opposite polarity. Voi la as the French say. Perhaps
grounded receivers can be placed between these two points to gauge their
possible energy reception.
HDN
