SEE BELOW :
·
DESCRIPTION OF THE
ISSUE ( NOTES, BULLETS) ;
·
TECHNICAL
SPECIFICATIONS
..........
DESCRIPTION OF THE ISSUE ( NOTES, BULLETS) ;
TOROIDAL (TORUS – DONUT SHAPED ) ANTENNA
1.) Does the
geometry of the coil affect signal propagation
For
example, would this type of design tend to dampen propagation
Past the
near field or would it work like a normal RF antenna?
2.) How
far will the coil transmit frequencies in the range of 200 to
3000
Hz, at power levels between 500 to 1000 watts, given the
characteristics
of the coil at elevations ranging between 1 to 6 feet?
3.) How
do we calculate the ""permissible exposure levels" for this
unit,
given
inputs from # 1 above, for distance ranges of 1 to 20 feet
from
coil?
DETAILS :
My
understanding to date is that the length of the transmitter, elevation height,
structure of the
antenna,
power output and frequency band all play parts in how far a transmission can
go.
There
must be metrics / formula that can be used to determine the specifics of this,
but off
hand I
do not know exactly what these are, am hoping you do. For example, does the radius
of the
coil from center play a part in propagation distance, am guessing it does?
Another
issue we need to get resolution is, in regards to "permissible exposure
levels" of
EMF
mitself. So for example, we know that if
frequencies are designed for a specific target,
but the
frequencies themselves are harmless to humans while remaining effective against
the
target, separate from this is the sheer power force of the carrier EMF energy
foot print.
So
while we want to be able to effectively deliver the frq signal to target, we do
not
want to
produce an undesirable increase in background EMF at the same time.
This
means we need to know what the wattage load is per spatial volume metric at
varying
distance from the coil is, when the coil is driven to specific power levels.
There should
be a formula that lets us know, for
example, if we drive the coil at 500 watts,
when we
are 12 feet from the coil, what can we expect, specifically, that the wattage
level
is per
cubic foot of space at that distance?
Here is
the ANSI/IEEE maximum permissible exposure levels for controlled areas ;
NSI/IEEE
C95.1 (1992), which are 0.4 W kg–1 averaged over the whole body, 8 W kg–1
for any
1 g of tissue, and 20 W kg–1 averaged over any 10 g of tissue in the
extremities.
https://groups.yahoo.com/neo/groups/Rife/conversations/messages/32986
If you
can track down the specifics for the above, please let me know - and we should
try to
connect at some point around mid week coming up to chat about this further.
……………………..
TECHNICAL SPECIFICATIONS
COIL
DEVELOPER:
Daniel
Nunez
https://www.facebook.com/DanielNunezMind1
http://www.youtube.com/DanielNunezMind
THESE
ARE THE Tech Specs FOR THE COIL:
https://1stopenergies.com/products/poe-vortex-coil-heavy
·
12
x 14ga Twisted Pairs
·
Soldered
Connections
·
Conforms
to MW-35C, UL recognized Class 200
·
High
temperature Class: 200°C (392°F)
·
Magnet
Wire AWG size: 14 AWG, round x 12
·
Insulation
type: modified polyester basecoat and an improved polyamideimide topcoat
·
Insulation
build: heavy build, more durable than single build
·
Dimensions:
10" OD x 1.5" ID x 4" H