Diodes as an Energy Source
10 - 28 - 2018
Note: the diode project needs to be reworked to support
higher voltages, as the biasing will discharge itself when the forwards
bias is reached.
The rule here is that the positive charge should move towards the smaller fractal.
The 2.30 mm fractal is smaller then the 2.69 mm fractal, and the way we
can reverse this is to use a longer octave on the 2.30 mm side.
If the charge will then move positive towards the 2.69 mm side, the
diode will not discharge it when it reaches forwards bias voltage.
Note this charging technique, does not move electrons so much as it moves the inner nuclear positive charge energy.
After the charge direction is then reversed, we can tap into the
background field which will want to move from 333000 towards 37000.
Then one can play with spin on the crystals as well and many other vibration techniques.
8 - 24 - 2016
This experiment now takes a past work showing a diode can be used as a
T field pump to convert vibration into electrical field, using a phi
then a pi/2 ratio.
Now we advance it to using the Source field and coupling mediator frequencies into the diode to power from.
This technique in theory should eliminate the tunning stubs, and source
our energy from the background field directly rather then from the
earths field.
This should eliminate the need for a ground bar as well, however the
added mass of the earth could still be used to increase the field
strength if necessary.
Comprehension of these effects, is essential to develop an engineering protocol that can become useful.
Every effort is made here to document why we are setting up these fields in the ways described.
References:
V2EM Diode Resonance Experiment
Source Field
In V2EM we discovered one can set up an energy pressure using phi, and
then a conversion system using pi / 2, to cause the Tempic field
pressure across a diode to charge a capacitor with a voltage, slowly
over time.
With the application of a pi/2 ratio of vibrations, the energy in the
nuclear field as tension will jump outwards to the electron proton gap
and convert the energy instantly into Electric potential or charge.
With the diodes this charging is constant, and does not stop working when the capacitor
is discharged, indicating it would be useful as a DC source of
electrical power, avoiding the "lock up" problem with using only
capacitors, if we can increase the rate of charge.
The vibration energy of the diode, is transformed into an electric
field on the capacitor using the pi / 2 ratio of diameter of a circle
to it's circumference applied to one side of the diode resonance.
Phi and Pi / 2 were calculated off the resonant frequencies from both
sides of the diode, which each have different lattice structure, and
therefore different mass resonance frequencies.
Thus the energy on both sides of the diode will be at a different
level off the background field when the crystals are in a state of
resonant vibration.
Source Resonance
In the Source field document, we now discover, we do not need the
tunning stubs to vibrate up the crystal latices, if we instead work
with IF frequencies, or what we termed mediator frequencies.
The mediator vibration sets between the device vibration and the background fields vibration to couple the two together.
There are several ratios we can install into the background field, or
the auric field of the device, condition the space around the diode, to
cause it to couple into the background field, and self resonate, or
self power it's own resonant vibration field.
If we set up our fields correctly around the diode, and get our ratios
of IF's oscillating with the background field, it may be possible to
extract our power from the 333000 Hz field and charge a capacitor with
the resultant energy.
I do not believe there is a limit to how many layers this field can
have when we are done, but it is expected, the more layers we install
the stronger the energy flow may become.
To review the layering effect, reference the 8950 document on a car
engine, where we can stack multiple fields off the 89 / 50 ratio that
will all self sustain from the piston motion, and then tie the outer
and inner fields into the background field directly.
In the Source Field document we use a 1/9 field to terminate back into the Source
field, or 333000 / 9 = 37. This time we may wish to experiment with a
stronger polarity generator for DC and use a 1/7 field. 333000 / 7 =
47571.43.
The sheer number of possibilities that need to be tried is staggering at this point but we have to begin somewhere.
8950 Document
Source Field
The basic flow of our vibration conversion system is based on
multipliers and factors, to calculate a way to tap into the background
field at two different frequencies,
then set up a pressure gradient between them to start our river
flowing, and lastly to convert this energy into an EM field with some
measure of real power behind it.
To create power from the background field we have to use a reasonable
size volume of space, compressed down into the small diode at very tiny
resonance lengths.
In this case the power will be in the field size or volume.
We will then expect a larger field bubble to form around this diode if
we succeed where the background field energy drops in frequency to a
mediator resonance.
I have chosen to set the smaller diode resonant segment on the 333000
side of the field and the larger one on the 1/7 side of the field.
As energy is extracted from Space its frequency will drop, and the energy will appear in our local field raising in frequency.
There is higher energy in a higher frequency.
These two quantities of energy will always sum to the background fields zero point intensity.
Thus the product of the mediator frequency and the extracted segment resonance will equal the background frequency.
Space around the device will drop in frequency to the mediator resonance, or the conditioned area of the space around the diode.
Vibration energy concentrates into the smaller fractal with a compression force on the background field.
Electrical energy moves oppositely and expands away from the compression force.
The frequencies we set up will be layered in the background field
around the diode and not short out in the capacitor, so possibly we
only need one capacitor for this experiment.
The main question is if the pi / 2 spin will actually convert the
energy to EM on the capacitor with that ratio not present in the
capacitor plates.
Here are the background field markers we wish to explore.
333000 / 2 = 166500
333000 / 3 = 111000
333000 / 4 = 83250
333000 / 5 = 66600
333000 / 6 = 55500
333000 / 7 = 47571
333000 / 8 = 41625
333000 / 9 = 37000
All may offer unique function into and out of the background field.
Diode Flow Polarity
89 50 Application
W
hile this is a developing experiment and many possibilities must
be tried, there are past experiments to consider which may assist our
understanding for polarity.
In the Earth node work it was noticed that a diode with vibration from
the earth moving though it developed a reversed voltage across it.
If we used the positive biasing mode for a diode then when we hit a
voltage reaching the forwards conduction level, the electric field
would then be shorted out as the diode forward conducts.
In the diagram above we have a voltage being generated, that
will not be shorted out by the diode after it is generated by
vibration.
The PIV will then govern the highest voltage we can create using the diode as a power source with this polarity set up.
If you want to understand why the 89 50 is a self sustaining field, you can visit these documents. 89/50 is a ratio.
8950
Polygon Vibration Fields 89 50
In the second Document, you will see a picture of the two circles with
segmented resonance on each where the segment size is identical for two
different diameter circles.
When you couple energy from inside to outside, you generate either
inflow or outflow, and energy is moved between atomic pattern layers
[concentric tubes in a Joe Cell is the geometry].
The 89/50 is known to effect inertial responses, and also to become self sustaining when set up correctly.
We will first try using this ratio as our pressure generating field
rather then the harsh phi ratio tension of the last diode experiment.
Pressure Generating Mediator
2.30 * 89 / 50 = 4.094 mm
333 / 4.094 = 81.34 mm [SSF] IF-1
333 / 4 = 83.25 mm
83.25 / 4.094 = 20.33 mm [SSF] IF-1
333 / 5 = 66.6
66.6 / 4.094 =
16.27 mm [SSF] IF-1
16.27 mm on the Anode side of a diode IF-1
This one is very unique. When the field is on the diode, it cannot be
broken down using any RF or DC voltages, in the normal release method
way.
The only way to shut it down again is to use the 37 fractal on it to break down the mediators input side. 333 / 9 = 37.
37 / 4.094 = 9.037 mm
9.04 mm released it.
Now the residual vibration imprint can be fully cleared using a 15Mhz F gen or a shot of DC.
It is starting to become as complex as a radio circuit, yet we still only have one hardware component.
Shown above is the flow chart to set up and take down the field on the cathode side for experiment.
This field will not crash when electricity passes through the diode, it is very robust.
Note the 4.094 energy point will connect to the 16.27 mm fractal,
but when the 9.04 mm is present in the field the energy will move
towards the smaller fractal and disconnect from it.
Also note, one does not have to set up the 4.094 fractal, or the
66.6 fractal with calipers, they will couple at those ratios with only
the Activate fractal used.
This shows that if one does not have the print above there will be
no comprehension of why this works, or how to shut it back down.
This should create a 3 layered field around the cathode end of the diode.
After the field from the diode switches over the 37000 fractal, the
pressure is released on the diode, and the field can now be cleared
using an F gen or DC flash of current through it.
This is but one of the possible fields we can place on the diode using Stainless Steel Calipers, and only on 1/2 of it,
the cathode side.
Method of Injection
Photo above shows me taking down the field on the Anode side of the
diode. Caliper goes around the body on the side we are working on.
When the 16.27 mm field is placed on this side of the diode the field
comes up on it and only on the lead on that side of the diode.
It will not come up on the other side of the diode because the resonance is a different frequency.
In this sense the diode is blocking the resonance on the other side of it.
PI / 2 Moving the energy into the Electron Proton Gap
Polarity
In a PI / 2 Ratio, the smaller fractal has the compression force,
and the larger one has the expansive force, where the two are setting in
concentric fields, they will self sustain.
We thus want to point the 2 / PI towards the Anode end of the diode and the PI / 2 end back at the Source field.
Also we are going to try the 333000 / 4 = 83250 as the
4 fracturing suggests a quadrature field in rotation if 2 / pi is
applied to it.
333000 / 4 = 83250
Now to couple this to the Cathode with a PI / 2 transform added.
Cathode Resonance = 2.69 mm
2.69 * PI / 2 = 4.22544 mm
83.25 / 4.22544 = 19.70 mm IF-3
This field holds as an SSF on the Cathode of the diode and feels expansive!
Release
Use a neo magnet. Could not release the expansive side with a fractal vibration.
Interesting note.
37 / 2.69 = 13.75 mm [activates other side of diode, tunnels through it, this side goes dead]
These configurations worked to tap into vibration on the diodes, however they did not produce electric potentials.
[Recommend avoiding a perfect phi.]
Crystalline Structure
In order to investigate what kind of vibration we are dealing with in
the diodes, I used a 16x multiplier to hold the lengths and scan for
nodal activity.
The following is what I came up with.
The structure appears to be equilateral triangles in nature, and the nodes are static.
I verified this using 2 calipers on each one, they both vibrate up stronger at 60 degree angles.
These frequencies are also in the background field and do not need the diodes present to resonate.
Height = Side * sin(60)
Area = Height * Side / 2
Spin
Area = Pi * r * r
D = 2 * Sqrt(Area/Pi)
| Diode |
60.0000 |
Deg |
Triangle |
Square |
Circle |
|
Side |
Height |
Area |
Side |
Diameter |
|
|
|
|
|
|
| Anode |
2.3000 |
1.9919 |
2.2906 |
1.5135 |
1.7078 |
Cathode
|
2.6900 |
2.3296 |
3.1333 |
1.7701 |
1.9974 |
|
|
|
|
|
|
| 16x |
36.8000 |
31.8697 |
586.4031 |
24.2158 |
27.3246 |
| 16x |
43.0400 |
37.2737 |
802.1307 |
28.3219 |
31.9579 |