How to Build Solid-State Electrical Over-Unity Devices, Free Energy
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HOW TO BUILD
SOLID-STATE
ELECTRICAL
OVER-UNITY
DEVICES
REV. 2.0a
William Alek
INTALEK, INC.
3506-43rd. Place
Highland, IN
46322
CONTACT INFO:
PHONE: 219.924.2742
EMAIL: alekws@intalek.com
(c) INTALEK, INC., 2002
(c) INTALEK, INC., 2002
2
ABSTRACT
Electrical coil-based devices that use Free Energy or
Over-Unity effects require a unique understanding
when determining their "correct" operation.
These devices can be placed into three unique
categories. The first category are classic coils that
use ferromagnetic (iron alloy) core material. These
devices typically have a COP (Coefficient Of
Performance) less than unity. The second category
are coils that use ferromagnetic cores and opposing
and/or orthogonal magnetic fields applied by
permanent magnets (pms). These devices typically
have a COP close to, but NOT greater than unity.
The third category are coils that use ferromagnetic
cores and/or pms in a special configuration, and
have unique operating requirements. These devices
have a COP greater than unity.
The purpose of this paper is to present the "hidden"
mechanism that is at work in these devices which
causes them to produce excess electrical energy.
(c) INTALEK, INC., 2002
3
THE DEFINITION OF COP
The Coefficient Of Performance, or COP, is a unit-
less number, and is expressed as a ratio of the
energy out divided by the energy in.
E
IN
Coil-Based
Device
E
OUT
COP =
E
OUT
E
IN
or
COP =
P
OUT
dt
P
IN
dt
FERROMAGNETIC DOMAINS
A ferromagnetic domain of iron alloy core materials
can be modeled as an
ideal "unity-gain" solenoid
.
The key words here are unity-gain, meaning that the
domains are in electromagnetic equilibrium with the
thermal environment. External coils can mutually
couple to these domains, thereby increasing its'
inductance, and as a consequence, its' energy.
B
m
o
H
I
+
THE POTENTIAL
DIFFERENCE IS
BOUND WITHIN
THE DOMAIN
THE MAGNETIC
AXIS CAN PIVOT
OR ROTATE
S
S
A
N
-
N
B
m
o
H
FERROMAGNETIC
DOMAIN
SOLENOID
MODEL
(c) INTALEK, INC., 2002
4
ORTHOGONAL MAGNETIC FIELDS
Magnetic fields are represented as vectors. Adding
orthogonal magnetic fields using permanent magnets
will
"increase the permeability
m
"
of the
ferromagnetic core material. As a consequence, the
inductance and the energy of the coil increases. The
results are a higher COP value.
Y
INCREASING PERMEABILITY:
m
XY
>
m
o
m
XY
H
XY
INCREASES INDUCTANCE:
L
XY
> L
IN
B
Y
X
INCREASES OUTPUT ENERGY:
0
m
o
H
X
E
XY
> E
IN
Y
INCREASING PERMEABILITY:
m
XYZ
>
m
o
B
Z
INCREASES INDUCTANCE:
B
Y
m
XYZ
H
XYZ
L
XYZ
> L
IN
0
m
o
H
X
X
INCREASES OUTPUT ENERGY:
E
XYZ
> E
IN
Z
(c) INTALEK, INC., 2002
5
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