Philippe Vandemoortele filed patents in 2010 related to electromagnetic wave energy and electromagnetic field energy sources. The patents are as follows:
US Patent 20120078328A1:
EU Patent EP0424442B1
https://patentimages.storage.googleapis.com/06/18/a4/a7b89419cf1d2f/US20120078328A1.pdf
[email][email]https://patentimages.storage.googleapis.com/db/89/05/4c955183807a88/EP0424442B1.pdf[/email][/email]
https://patents.google.com/patent/EP0424442A1/en
https://patents.google.com/patent/US5227755A/en
System and apparatus for treatment of biological cellular structure with electromagnetic wave energy and electromagnetic field energy sources
Please note that these patents are directly related to Stanley A. Meyer's work. The provided search results do not mention Stanley A. Meyer or his involvement in MRI technology at Battelle Foundation in Ohio, where he developed patents related to various technological areas, including oceanography, particularly MRI cardiac monitoring, and banking systems.
Meyer was also involved in the Gemini Space program with NASA and the Star Wars project, where he worked on the energy feeding system for "Concept EBED,"
I Quote
Winding arrangements for cryo-magnets have a winding of superconducting wire (12) connected in parallel to a
winding of normally conducting wire (11) which, in the event of a quench, conducts the operating current and
mechanically stabilizes the winding arrangement. Independently of this, the size of such a winding arrangement depends primarily on the tensile forces exerted on the wires and on the modulus of elasticity of the mate
rial of the wire.
The size of such a winding arrangement is a significant factor in its cost and should therefore be
reduced. According to the invention, the winding arrangement has a plurality of groups (17) arranged in
radially repetitive layers inside the winding section, in which each winding of superconducting wire surrounds
windings of a normally conducting wire and windings of steel wire or of a wire with a high modulus of elasticity.
LEDs
emitting wave lengths of 690 nanometers from among the numerous LEDs in the PMS.
For example, in a PMS containing
eighteen (18) LEDs, one-third of the LEDs could have a
nominal wavelength of 690 nanometers and the resta nominal
wavelength of 870 nanometers. The LEDs can be adjusted in
number and nominal wavelength to Suit the situation. Each of
the coherent light sources 50 is preferably surrounded by a
parabolic, faceted reflector 52 which directs its coherent light
toward the patient in a focused beam resulting in a defined
spot which overlaps and contributes to the homogeneity of the
spot where incoherent light strikes the patient and is prefer
ably within the same 7-10 inch diameter spot cast by inco
herent light.
The reflector 52 preferably comprises a molded
poly carbonate material with a silver metallic reflective sur
face. A polarization filter 53 extends across the exit area of the
PMS to further control the electromagnetic wave energy ema
nating therefrom. (See FIG. 3.)
0036.
The output and frequency of the coherent and inco
herent light sources is regulated by the Control Module 54.
The Control Module contains an LCD touch screen display panel 56 for manual entry of data and operating instructions.
The Control Module is preferably mounted on, or adjacent,
the cabinet 14 in an area that is readily accessible to the
operator of the claimed system 10 (See FIG. 1).
TRI FILLAR BOBBIN COIL
0037. The periphery of the lower (as viewed in FIG. 2)
open end of PMS casing 40 contains a Tri-Wind Magnetic Coil Assembly 60 which is capable of generating unique
electromagnetic field energy (EMF) due to its composition
and control by the Control Module 54. As the name suggests, the Tri-Wind Coil has three components. Those components are described below with reference to FIG. 3 which includes
an enlarged cross-sectional view of the Tri-Wind Coil 60.
0038.
That coil comprises three seperate windings as illus
trated in FIGS. 2-3. The improved coils are, in part, based on
use of special alloys and specially shaped wires matched with
appropriate coatings for each winding. Of the three separate windings each plays a role in influencing penetration of pho
tons generated by the coherent and incoherent light Sources
into the person being treated. The Tri-Wind Coil 60 is also a
powerful source of electromagnetic field energy useable for
patient treatment.
0039. One of the windings 62 in the Tri-Wind Coil 60 is
preferably made from a unique alloy and wire configuration.
This winding is formed from a bifilar wire which is preferably
made from a stainless steel alloy of high permeability and
resistance. Preferably the bifilar wiring used in the first coil
has a dog bone cross section comprising two stainless Steel
wire strands embedded in a coating of polyimide with each
wire electrically isolated from the other.
For best performance
this coating should be from 20-33 microns, nominal, for each W1e.
0040. The bifilar wire is continuously wound into position
around a circular coil holder (spool) to form the first coil 62.
Positive and negative leads from each conductor of the bifilar
wire are connected to the Control Module 54.
0041.
The second winding 64 in the Tri-Wind Coil pref erably comprises coated copper wire with appropriate leads
to the Control Module 54. This winding is preferably wound
on the outside of the first winding 62 containing the bifilar
wire. In one embodiment the composition of the coating
around the wire is such that it will adhere to adjoining layers of copper wire coating as the winding is formed.
0042.
A third winding 66 can be used to enhance the EMF
generated in the Tri-Wind Coil. It, like the second winding, is
preferably formed from coated copper wiring. Both the sec
ond and third winding have appropriate leads, separate from
each other, which are connected to the Control Module 54.
0043 Intermediate the Tri-Wind Coil 60 and the Control
Module 54 are preferably multiple drivers which control sig
nal inputs for each of the specified windings in the coil.
The
drivers can vary the electrical impulse to each winding in a
variety of ways, including the duration and wave form
(square, sinus, saw tooth, wave, etc.) of the electrical impulse.
This permits an infinite variety of electrical inputs and con
sequent variety of electromagnetic fields that can be created
according to the desired treatment regimen via the Control
Module inputs.
Thus, the drivers must be capable of operating
in the range of microseconds as instructed by inputs from the
Control Module 54 to modulate the frequency, duration,
phase, duty cycle, pulse and amplitude of the electrical
impulse sent to each of the coil windings. The windings thereby are capable of generating the electromagnetic
impulses in a fashion which Supplements the acceleration of
the photons generated by the light source.
This enables con
trol over that combination in treatment of varying parts of the
body as discussed above, by which tissue treatment at varying
depths within the body can be realized.
0044) The Control Module 54 also controls the light Sources 42 and 50. It can adjust the frequency, phase, dura
tion, duty cycle, pulse and amplitude of electromagnetic wave
energy forces emitted from these sources to provide effective
treatment of biological cellular structure. For example, the
Control Module can selectively activate only those LEDs
emitting wave lengths of 690 nanometers from among the numerous LEDs in the PMS. Or the Control Module can
selectively activate LEDs 50 of one or more other wave
lengths from among the many LEDs arrayed around the inner
periphery of PMS 30. In addition, the Control Module can
control the instantaneous frequency, phase, duration, duty cycle, pulse and amplitude of the selected LEDs.
Since Stanley A Meyer Worked on the original NMR MRI systems and these people are involved in the
An electromagnet for producing the constant magnetic field required for use in NMR tomography consists of a cylindrical field coil and a stable cylindrical shell made of iron encompassing and simultaneously supporting the coil. The field coil may comprise constituent coils, including error coils, and is capable of producing an at least approximately homogeneous magnetic field within the space defined by the field coil for receiving the object to be examined.
They may have one time worked with Meyer at institute or handle via Bruker Biospin GmbH
it is very interesting indeed for those researching Meyer death and his work which all comes from NMR MRI
i Encourage those reading this to research the cited patents and download them and post them here.
from Bruker along with deep research on there names and patents tech or companies
Marc Vancraeyenest, Ooskamp (BE);
Philippe Vandemoortele,Knokke (BE);
Covington Stanwick, Annapolis, MD (US)
Michael Westphal
Dr Wolfgang Hans-Georg Mueller
Prof Dr Arne Kasten
DD
US Patent 20120078328A1:
EU Patent EP0424442B1
https://patentimages.storage.googleapis.com/06/18/a4/a7b89419cf1d2f/US20120078328A1.pdf
[email][email]https://patentimages.storage.googleapis.com/db/89/05/4c955183807a88/EP0424442B1.pdf[/email][/email]
https://patents.google.com/patent/EP0424442A1/en
https://patents.google.com/patent/US5227755A/en
System and apparatus for treatment of biological cellular structure with electromagnetic wave energy and electromagnetic field energy sources
Please note that these patents are directly related to Stanley A. Meyer's work. The provided search results do not mention Stanley A. Meyer or his involvement in MRI technology at Battelle Foundation in Ohio, where he developed patents related to various technological areas, including oceanography, particularly MRI cardiac monitoring, and banking systems.
Meyer was also involved in the Gemini Space program with NASA and the Star Wars project, where he worked on the energy feeding system for "Concept EBED,"
I Quote
Winding arrangements for cryo-magnets have a winding of superconducting wire (12) connected in parallel to a
winding of normally conducting wire (11) which, in the event of a quench, conducts the operating current and
mechanically stabilizes the winding arrangement. Independently of this, the size of such a winding arrangement depends primarily on the tensile forces exerted on the wires and on the modulus of elasticity of the mate
rial of the wire.
The size of such a winding arrangement is a significant factor in its cost and should therefore be
reduced. According to the invention, the winding arrangement has a plurality of groups (17) arranged in
radially repetitive layers inside the winding section, in which each winding of superconducting wire surrounds
windings of a normally conducting wire and windings of steel wire or of a wire with a high modulus of elasticity.
LEDs
emitting wave lengths of 690 nanometers from among the numerous LEDs in the PMS.
For example, in a PMS containing
eighteen (18) LEDs, one-third of the LEDs could have a
nominal wavelength of 690 nanometers and the resta nominal
wavelength of 870 nanometers. The LEDs can be adjusted in
number and nominal wavelength to Suit the situation. Each of
the coherent light sources 50 is preferably surrounded by a
parabolic, faceted reflector 52 which directs its coherent light
toward the patient in a focused beam resulting in a defined
spot which overlaps and contributes to the homogeneity of the
spot where incoherent light strikes the patient and is prefer
ably within the same 7-10 inch diameter spot cast by inco
herent light.
The reflector 52 preferably comprises a molded
poly carbonate material with a silver metallic reflective sur
face. A polarization filter 53 extends across the exit area of the
PMS to further control the electromagnetic wave energy ema
nating therefrom. (See FIG. 3.)
0036.
The output and frequency of the coherent and inco
herent light sources is regulated by the Control Module 54.
The Control Module contains an LCD touch screen display panel 56 for manual entry of data and operating instructions.
The Control Module is preferably mounted on, or adjacent,
the cabinet 14 in an area that is readily accessible to the
operator of the claimed system 10 (See FIG. 1).
TRI FILLAR BOBBIN COIL
0037. The periphery of the lower (as viewed in FIG. 2)
open end of PMS casing 40 contains a Tri-Wind Magnetic Coil Assembly 60 which is capable of generating unique
electromagnetic field energy (EMF) due to its composition
and control by the Control Module 54. As the name suggests, the Tri-Wind Coil has three components. Those components are described below with reference to FIG. 3 which includes
an enlarged cross-sectional view of the Tri-Wind Coil 60.
0038.
That coil comprises three seperate windings as illus
trated in FIGS. 2-3. The improved coils are, in part, based on
use of special alloys and specially shaped wires matched with
appropriate coatings for each winding. Of the three separate windings each plays a role in influencing penetration of pho
tons generated by the coherent and incoherent light Sources
into the person being treated. The Tri-Wind Coil 60 is also a
powerful source of electromagnetic field energy useable for
patient treatment.
0039. One of the windings 62 in the Tri-Wind Coil 60 is
preferably made from a unique alloy and wire configuration.
This winding is formed from a bifilar wire which is preferably
made from a stainless steel alloy of high permeability and
resistance. Preferably the bifilar wiring used in the first coil
has a dog bone cross section comprising two stainless Steel
wire strands embedded in a coating of polyimide with each
wire electrically isolated from the other.
For best performance
this coating should be from 20-33 microns, nominal, for each W1e.
0040. The bifilar wire is continuously wound into position
around a circular coil holder (spool) to form the first coil 62.
Positive and negative leads from each conductor of the bifilar
wire are connected to the Control Module 54.
0041.
The second winding 64 in the Tri-Wind Coil pref erably comprises coated copper wire with appropriate leads
to the Control Module 54. This winding is preferably wound
on the outside of the first winding 62 containing the bifilar
wire. In one embodiment the composition of the coating
around the wire is such that it will adhere to adjoining layers of copper wire coating as the winding is formed.
0042.
A third winding 66 can be used to enhance the EMF
generated in the Tri-Wind Coil. It, like the second winding, is
preferably formed from coated copper wiring. Both the sec
ond and third winding have appropriate leads, separate from
each other, which are connected to the Control Module 54.
0043 Intermediate the Tri-Wind Coil 60 and the Control
Module 54 are preferably multiple drivers which control sig
nal inputs for each of the specified windings in the coil.
The
drivers can vary the electrical impulse to each winding in a
variety of ways, including the duration and wave form
(square, sinus, saw tooth, wave, etc.) of the electrical impulse.
This permits an infinite variety of electrical inputs and con
sequent variety of electromagnetic fields that can be created
according to the desired treatment regimen via the Control
Module inputs.
Thus, the drivers must be capable of operating
in the range of microseconds as instructed by inputs from the
Control Module 54 to modulate the frequency, duration,
phase, duty cycle, pulse and amplitude of the electrical
impulse sent to each of the coil windings. The windings thereby are capable of generating the electromagnetic
impulses in a fashion which Supplements the acceleration of
the photons generated by the light source.
This enables con
trol over that combination in treatment of varying parts of the
body as discussed above, by which tissue treatment at varying
depths within the body can be realized.
0044) The Control Module 54 also controls the light Sources 42 and 50. It can adjust the frequency, phase, dura
tion, duty cycle, pulse and amplitude of electromagnetic wave
energy forces emitted from these sources to provide effective
treatment of biological cellular structure. For example, the
Control Module can selectively activate only those LEDs
emitting wave lengths of 690 nanometers from among the numerous LEDs in the PMS. Or the Control Module can
selectively activate LEDs 50 of one or more other wave
lengths from among the many LEDs arrayed around the inner
periphery of PMS 30. In addition, the Control Module can
control the instantaneous frequency, phase, duration, duty cycle, pulse and amplitude of the selected LEDs.
Since Stanley A Meyer Worked on the original NMR MRI systems and these people are involved in the
An electromagnet for producing the constant magnetic field required for use in NMR tomography consists of a cylindrical field coil and a stable cylindrical shell made of iron encompassing and simultaneously supporting the coil. The field coil may comprise constituent coils, including error coils, and is capable of producing an at least approximately homogeneous magnetic field within the space defined by the field coil for receiving the object to be examined.
They may have one time worked with Meyer at institute or handle via Bruker Biospin GmbH
it is very interesting indeed for those researching Meyer death and his work which all comes from NMR MRI
i Encourage those reading this to research the cited patents and download them and post them here.
from Bruker along with deep research on there names and patents tech or companies
Marc Vancraeyenest, Ooskamp (BE);
Philippe Vandemoortele,Knokke (BE);
Covington Stanwick, Annapolis, MD (US)
Michael Westphal
Dr Wolfgang Hans-Georg Mueller
Prof Dr Arne Kasten
DD