3 Phase Spiral Reactances in Mutual Induction; layered as phases 1,2,3
- I have finished out the tedious job of noting all the possible
changes in reactance that can be made along the 4 layer phase
groupings. This does not include the intertwine phase winding method,
which will be tried with other "negative impedance" trials. In that
method each successive wind is delegated to a new phase, but in the
present scenario each phase is connected to 4 winds in series.
Intertwining is predicted to increase the effects of mutual
inductance between phases, but however here, we are only looking to
exploit an INCREASE of inductance by mutual inductance between
phases. Formely the reactance tests for a single phase showed a
current of ~ .21 A In all the possible manipulations of placing the
spiral phases together in space, this always shows an increase of
phase currents, and never a decrease. Thus these methods only
decrease the impedance, and never increase it. A scheme of resonant
interphasing will have to be used to achieve that objective. This is
desirous to increase the Q factor of the spirals which then become
exploited as Delta Series Resonances. One of these 4 layer grougs can
then be sandwiched between two 14 gauge coil spools used as an
interphasing, which has a much larger inductance and q factor. It is
hoped this larger inductance factor can be found to increase the
inductance of the spiral layer groups.
In the meantime the remaining 3 phase combinations of parametric
spiral groups can be shown.
Ordered Winding directions/ Maximum 3 phase impedance cancellation
Voltage meter is across phase 2, which derives the most current
at .44A. Both phases 1 and phase 3 induce current on the middle phase
2. This combination loads down the 2 volt parametric voltage to the
highest degree near 1 volt.
Phase 2 middle winding connections reversed/ Max impedance in 3 phase
This connection was formerly tried to increase the inductance of the
dual phases, but it did not work with a two phase output. It doesnt
work with 3 phases either. Only the bottom phase 1 appears to be
acting at its normal reactive level, and phases 2 and 3 have exceeded
the reactive isolation parametric value of .21A The stator output
voltage has increased to 50% of former values now near 1.5 volts.
Ordered wind Phases 1 and 2/ reversed wind on phase 3
The stator voltage drops to 1.4 volts, as more current is procurred
from the system. One of the strange things about the misbalance of
amperage levels on the three phases, is that the phase 3 farthest
away from ground in the lateral sense always holds the highest
currents. Is this a gravity interaction?
Recall that these spirals have a resistance that is equivalent to the
stator Z(int) values for maximum power transfer, but that they only
do this when the spirals are further resonated. The stategy will be
to resonate each phase in isolation, using two of these phasings, and
then to form a 2 coil 14 gauge spool interphasing between those
resonances. This interphasing is also set to resonance. Then the
third phase is employed as a spiral layer group placed between the
interphasing coils, and new impedance measurements made for both
opposition and unity cases on phase 3. That third phase spiral is
then set to resonance according to the new impedance it experiences
in mutual inductance.