Correlated Magnetics Research LLC Patent applications |
Patent application number | Title | Published |
20160031229 | Magnetizing Inductor and a Method for Producing a Magnetizing Inductor - An improved print head for use by a magnetic printer consists of multiple flat metal layers that form a flat metal inductor coil about a hole having a first diameter on a first side of the print head and having a second diameter smaller than the first diameter on a second side of the print head. | 02-04-2016 |
20150364238 | System and Method for Tailoring Magnetic Forces - A magnetic system described herein includes first and second magnetic structures that simultaneously produce repel forces and attract forces that combine to produce a composite force that can be an attract force, a repel force, or a force that transitions from an attract force to a repel force. | 12-17-2015 |
20150357108 | SYSTEM AND METHOD FOR MOVING AN OBJECT - An improved system and method for moving an object includes a first correlated magnetic structure associated with a first object and a second correlated magnetic structure associated with a second object. The first and second correlated magnetic structures are complementary coded to achieve a peak attractive tensile force and a peak shear force when their code modulos are aligned thereby enabling magnetic attachment of the two objects whereby movement of one object causes movement of the other object as if the two objects were one object. Applying an amount of torque to one correlated magnetic structures greater than a torque threshold causes misalignment and decorrelation of the code modulos enabling detachment of the two objects. The number, location, and coding of the correlated magnetic structures can be selected to achieve specific torque characteristics, tensile force characteristics, and shear force characteristics. | 12-10-2015 |
20150348690 | SYSTEM FOR CONCENTRATING AND CONTROLLING MAGNETIC FLUX OF A MULTI-POLE MAGNETIC STRUCTURE - An improved system for concentrating magnetic flux of a multi-pole magnetic structure at the surface of a ferromagnetic target uses first pole pieces having a magnet-to-pole piece interface with a first area and a pole piece-to-target interface with a second area substantially smaller than the first area for concentrating flux of the multi-pole magnetic structure at each pole piece-to-target interface, where the target can be a ferromagnetic material, complementary pole pieces, or a gap. The improved system may also include a magnetic circuit having second pole pieces located between the first pole pieces and the target that controls the flux directed from the first pole pieces to the target. | 12-03-2015 |
20150318088 | System and Method for Producing Magnetic Structures - An improved system and method for producing magnetic structures involves a first magnetizing circuit having a first inductor coil used to magnetically print a first magnetic source onto a magnetizable material and a second magnetizing circuit having a second inductor coil used to magnetically print a second magnetic source onto said magnetizable material. | 11-05-2015 |
20150137919 | System and Method for Producing Magnetic Structures - A system for producing magnetic structures includes multiple magnetizing circuits and multiple inductor coils used to magnetically print multiple magnetic sources onto multiple pieces of magnetizable material moving on a motion control system. The multiple inductor coils may be configured on one or more gantries. The motion control system may be a conveyor system. | 05-21-2015 |
20150048913 | Field Emission System - A magnetic system is provided that involves field emission structures having magnetic field sources, magnetically active intermediate layers, and magnetically inactive intermediate layers. The magnitudes, polarities, and positions of the magnetic field sources may be configured to have desirable correlation properties, which may be in accordance with a code. The correlation properties correspond to a desired spatial force function where spatial forces between field emission structures correspond to their relative alignment and separation distance. | 02-19-2015 |
20150042430 | System and Method for Tailoring Polarity Transitions of Magnetic Structures - A system and method for tailoring a polarity transition of a magnetic structure is provided that involves printing one or more reinforcing maxels alongside one side or both sides of a polarity transition boundary between a first polarity region of the magnetic structure having a first polarity and a second polarity region of the magnetic structure having a second polarity, where printing reinforcing maxels alongside the polarity transition boundary improves the magnetic field characteristics of the polarity transition. | 02-12-2015 |
20150022298 | System and Method for Producing Magnetic Structures - An improved system and method for producing magnetic structures involves a first magnetizing circuit having a first inductor coil used to magnetically print a first magnetic source onto a magnetizable material and a second magnetizing circuit having a second inductor coil used to magnetically print a second magnetic source onto said magnetizable material. | 01-22-2015 |
20140373950 | MAGNETIC VALVE ASSEMBLY - A valve assembly comprises a sealed container connected to a hot water supply line and a cold water supply line. The sealed container has an outlet for supplying at least one of hot water or cold water to a faucet. A valve mechanism is located inside the sealed container comprising a stationary mixing part and a moveable mixing part. A magnetic coupling adapter has a first magnetic structure located outside of a wall of the sealed container. A first magnetic structure is made of a first magnetizable material having a first plurality of first printed maxels having a first polarity pattern. A second magnetic structure located inside the wall of the sealed container is made of a second magnetizable material having a second plurality of second printed maxels having a second polarity pattern that is complementary to the first polarity pattern. The first magnetic structure and second magnetic structure are magnetically coupled across the wall of the sealed container. A first adapter interface component located outside of the wall of the sealed container is associated with the first magnetic structure. A second adapter interface component located inside the wall of the sealed container is associated with the second magnetic structure and the moveable mixing part. A movement control mechanism includes a moveable handle associated with the first adapter interface, which is configured to control a movement of the magnetic coupling adapter and thereby a movement of the moveable mixing part to control flow and mixing of the hot and cold water. | 12-25-2014 |
20140320248 | SYSTEM FOR CONCENTRATING MAGNETIC FLUX - An improved system for concentrating magnetic flux of a multi-pole magnetic structure at the surface of a ferromagnetic target uses pole pieces having a magnet-to-pole piece interface with a first area and a pole piece-to-target interface with a second area substantially smaller than the first area, where the target can be a ferromagnetic material or a complementary pole pieces. The multi-pole magnetic structure can be a coded magnetic structure or an alternating polarity structure comprising two polarity directions, or can be a hybrid structure comprising more than two polarity directions. A magnetic structure can be made up of discrete magnets or can be a printed magnetic structure. | 10-30-2014 |
20140320247 | SYSTEM FOR CONCENTRATING MAGNETIC FLUX OF A MULTI-POLE MAGNETIC STRUCTURE - An improved system for concentrating magnetic flux of a multi-pole magnetic structure at the surface of a ferromagnetic target uses pole pieces having a magnet-to-pole piece interface with a first area and a pole piece-to-target interface with a second area substantially smaller than the first area, where the target can be a ferromagnetic material or a complementary pole pieces. The multi-pole magnetic structure can be a coded magnetic structure or an alternating polarity structure comprising two polarity directions, or can be a hybrid structure comprising more than two polarity directions. A magnetic structure can be made up of discrete magnets or can be a printed magnetic structure. | 10-30-2014 |
20140299668 | Magnetizing Printer and Method for Re-Magnetizing at Least a Portion of a Previously Magnetized Magnet - A magnetizing printer and a method are described herein for printing one or more magnetic sources (maxels) having a first polarity onto a side of a previously magnetized magnet having an opposite polarity. | 10-09-2014 |
20140266526 | METHOD FOR MAKING AND USING MAGNETIC STRUCTURES IN SEMI-FLEXIBLE MATERIAL - A semi-flexible magnetic structure includes a flexible layer and a plurality of magnetizable elements adhered to the flexible layer such that there is a spacing between magnetizable elements of the plurality of magnetizable elements, where each magnetizable element of said plurality of magnetizable elements is a solid piece of magnetizable material. The spacing between magnetizable elements enables the semi-flexible magnetic structure to bend around an object. The semi-flexible magnetic structure can be being magnetized to have a plurality of magnetic sources in a polarity pattern. | 09-18-2014 |
20140218146 | SYSTEM FOR CONTROLLING MAGNETIC FLUX OF A MULTI-POLE MAGNETIC STRUCTURE - A system for controlling flux of a multi-pole magnetic structure includes a movable magnetic circuit where the position of the moveable magnetic circuit relative to the multi-pole magnetic structure determines the flux emitted by the magnetic structure. The moveable magnetic circuit may be configured to have a tipping movement, a translational movement, and/or a rotational movement relative to the multi-pole magnetic structure. | 08-07-2014 |
20140211360 | SYSTEM AND METHOD FOR PRODUCING MAGNETIC STRUCTURES - A magnetizer for magnetizing magnetic field sources into a magnetizable material includes a magnetization subsystem, a motion control system, and a magnetizer control system. The magnetization subsystem includes a magnetizing inductor comprising a plurality of flat conductor layers and a plurality of insulating layers that form multiple turns of a coil having an aperture and a magnetization circuitry for applying a current to the magnetizing inductor to generate a magnetizing field having a high magnetic flux density in and near said aperture that is sufficient to magnetize said magnetizable material and having a low magnetic flux density elsewhere that is insufficient to substantially magnetize said magnetizable material. The motion control system moves at least one of the magnetizable material or the magnetizing inductor to position the aperture of the magnetizing inductor adjacent to one or more locations at a surface of the magnetizable material where the one or more magnetic field sources are magnetized into the magnetizable material. The one or more magnetic field sources have a first polarity exposed at the surface of the magnetizable material and a second polarity not exposed at the surface of the magnetizable material. | 07-31-2014 |
20140208543 | MAGNETIC HINGE SYSTEM - A magnetic hinge system includes a first component that is associated with a first object, a second component that is associated with a second object, and an axle. The first component includes a first hole and a first magnetic structure having a first plurality of magnetic source regions having a first polarity pattern. The second component includes a second hole and a second magnetic structure having a second plurality of magnetic source regions having a second polarity pattern complementary to said first polarity pattern. The axle can be inserted into the first hole and the second hole such that the first and second magnetic structures face each other across an interface boundary, where the first polarity pattern and the second polarity pattern are in accordance with a cyclic implementation of a code of length N that has a cyclic correlation function having a single peak and a plurality of off peaks per code modulo. | 07-31-2014 |
20140191830 | SYSTEM AND METHOD FOR AFFECTING FLUX OF MULTI-POLE MAGNETIC STRUCTURES - A shunt plate is provided that is associated with a first side of a multi-pole magnetic structure. The shunt plate provides a magnetic short between opposite polarity magnetic sources on the first side of said magnetic structure, the magnetic short causing a magnetic flux of said opposite polarity magnetic sources to be routed from said first side of the magnetic structure through said magnetic structure to the second side of said magnetic structure. The thickness of the shunt plate is selected by determining the integrated flux across a magnetic source of the magnetic structure such that the corresponding flux density in the shunt plate does not substantially exceed the flux density saturation level of a cross section of the shunt plate. | 07-10-2014 |
20140184505 | Magnetic Vector Sensor Positioning and Communications System - A system is described herein for monitoring the movement of one or more magnets located external to a device using the vector data from one or more magnetic vector sensors incorporated in the device to determine a position and/or to communicate information | 07-03-2014 |
20140184368 | CORRELATED MAGNETIC SYSTEM AND METHOD - An improved magnetic system includes a first magnetic structure comprising a first plurality of magnetic sources having a first polarity pattern, a second magnetic structure comprising a second plurality of magnetic sources having a second polarity pattern and at least one mechanical support structure. The first magnetic structure is movable relative to the second magnetic structure. The first and second magnetic structures are engaged and produce a peak spatial force when in a correlated state where the first and second polarity patterns are aligned. The first and second magnetic structures produce an off peak spatial force when in a decorrelated state where the first and second polarity patterns are misaligned, w off peak spatial force resulting from cancellation of at least one repel force by at least one attract force. The at least one mechanical support structure can be engaged to augment the peak spatial force to secure the first and second magnetic structures and can be disengaged to allow the first and second magnetic structures to be disengaged when said first and second magnetic structures are in a decorrelated state. | 07-03-2014 |
20140182088 | MAGNETIC ATTACHMENT SYSTEM - An improved magnetic attachment system involves a female component that is associated with a first object and a male component that is associated with a second object. The female component includes a hole and a first magnetic structure having a first plurality of magnetic source regions having a first polarity pattern. The male component includes a peg that can be inserted into the hole and a second magnetic structure having a second plurality of magnetic source regions having a second polarity pattern complementary to said first polarity pattern. The male and female component are configured such that when the peg is inserted into the hole the first and second magnetic structures face each other across an interface boundary enabling magnetic attachment of the first object to the second object, where while the peg remains inserted within the hole the male component can be rotated relative to the female component but translational movement of the male component relative to the female component is constrained. | 07-03-2014 |
20140152407 | Magnetic Structure Production - Magnetic structure production may relate, by way of example but not limitation, to methods, systems, etc. for producing magnetic structures by printing magnetic pixels (aka maxels) into a magnetizable material. Disclosed herein is production of magnetic structures having, for example: maxels of varying shapes, maxels with different positioning, individual maxels with different properties, maxel patterns having different magnetic field characteristics, combinations thereof, and so forth. In certain example implementations disclosed herein, a second maxel may be printed such that it partially overwrites a first maxel to produce a magnetic structure having overlapping maxels. In certain example implementations disclosed herein, a magnetic printer may include a print head comprising multiple parts and having various properties. In certain example implementations disclosed herein, various techniques for using a magnetic printer may be employed to produce different magnetic structures. Furthermore, description of additional magnet-related technology and example implementations thereof is included herein. | 06-05-2014 |
20140111296 | SYSTEM AND METHOD FOR PRODUCING MAGNETIC STRUCTURES - A system for producing magnetic structures includes multiple magnetizing circuits and multiple inductor coils used to magnetically print multiple magnetic sources onto multiple pieces of magnetizable material. The multiple pieces of magnetizable material may be moving on a motion control system. The multiple inductor coils may be configured on one or more gantries. The motion control system may be a conveyor system. | 04-24-2014 |
20140104022 | INTELLIGENT MAGNETIC SYSTEM - An intelligent magnetic system includes a first piece of ferromagnetic material having magnetically printed field sources having a multi-polarity pattern that extend from a first side to a second side that is magnetically attached to a second piece of ferromagnetic material, where a shunt plate disposed on the first side that routes magnetic flux through the first piece of ferromagnetic material from said first side to said second side. The system also includes at least one simple machine for amplifying an applied force into a detachment force that creates an angled spacing between the first piece of ferromagnetic material and the second piece of ferromagnetic material, at least one sensor for producing sensor data; and a control system for monitoring the sensor data and managing the use of the first piece of ferromagnetic material. | 04-17-2014 |
20140104021 | System and Method for Demagnetization of a Magnetic Structure Region - A system and a method are described herein for demagnetizing a region of a magnetic structure. In one embodiment, the system comprises: (a) a pulsed magnetizer; and (b) at least one magnetizing coil that receives a sequence of discrete currents with continually decreasing current values from the pulsed magnetizer and outputs a sequence of discrete magnetizing fields with continually decreasing field strengths to overwrite and at least partly demagnetize the region of the magnetic structure. The at least one magnetizing coil is located adjacent to the region of the magnetic structure. | 04-17-2014 |
20140091887 | METHOD FOR ISOLATION OF VIBRATION - A multi-level magnetic system includes first and second magnetic structures and transitions between an attract mode and a repel mode when the first and second magnetic structures are separated by an equilibrium separation distance. The multi-level magnetic system is placed between two objects and configured to oscillate about the equilibrium separation distance in response to a vibration from a motion source. The oscillation about the equilibrium separation distance causes the multi-level magnetic system to function as a low pass filter that substantially attenuates vibrations above a cutoff frequency thereby limiting the conducting of the vibration between the two objects. | 04-03-2014 |
20140062241 | MAGNETIC SHEAR FORCE TRANSFER DEVICE - A magnetic shear force transfer device for transferring shear forces across a non-magnetic gap includes a first magnetic structure comprising concentric circular tracks of magnetic sources magnetically printed into a first magnetizable material a second magnetic structure comprising concentric circular tracks of magnetic sources magnetically printed into a second magnetizable material. Each concentric circular track has an even number of magnetic sources where adjoining magnetic sources alternate in polarity. One or more tracks of the first magnetic structure are rotated relative to one or more tracks of the second magnetic structure such that a maximum torque condition coincides to one angular orientation between the first and second magnetic structures. | 03-06-2014 |
20140043126 | Magnetic System - A multilevel magnetic system described herein includes first and second magnetic structures that produce a net force that transitions from an attract force to a repel force as a separation distance between the first and second magnetic structures increases. The multi-level magnetic system is configured to maintain a minimum separation distance between a transition distance where the net force is zero and a separation distance at which a peak repel force is produced. | 02-13-2014 |
20140035707 | System and Method for Magnetization - A system and a method are described herein for magnetizing magnetic sources into a magnetizable material. In one embodiment, the method comprises: (a) providing an inductor coil having multiple layers and a hole extending through the multiple layers; (b) positioning the inductor coil next to the magnetizable material; and (c) emitting from the inductor coil a magnetic field that magnetizes an area on a surface of the magnetizable material, wherein the area on the surface of the magnetizable material that is magnetized is in a direction other than perpendicular to the magnetizable material such that there is a magnetic dipole with both a north polarity and a south polarity formed on the surface of the magnetizable material. | 02-06-2014 |
20140033482 | MAGNETIC ATTACHMENT SYSTEM HAVING A MULTI-POLE MAGNETIC STRUCTURE AND POLE PIECES - An attachment system comprises an attachment assembly having a side with an exposed surface. A magnetic structure comprises a plurality of assembly field emission sources having positions and polarities relating to an attachment spatial force function. A plurality of assembly pole pieces are coupled to the magnetic structure such that a spatial spacing is created between the magnetic structure and the side. Each assembly pole piece is coupled to a corresponding one of the plurality of assembly field emission sources for directing magnetic flux. An attachment target attaches to the exposed surface based on the attachment spatial force function. The attachment target comprises a plurality of target field emission sources having positions and polarities relating to the attachment spatial force. The attachment spatial force function is in accordance with a code and corresponds to the relative alignment of the plurality of assembly field emission sources and the plurality of target field emission sources to each other. | 02-06-2014 |
20140028426 | SYSTEM AND METHOD FOR TAILORING POLARITY TRANSITIONS OF MAGNETIC STRUCTURES - A system and method for tailoring a polarity transition of a magnetic structure is provided that involves printing one or more reinforcing maxels alongside one side or both sides of a polarity transition boundary between a first polarity region of the magnetic structure having a first polarity and a second polarity region of the magnetic structure having a second polarity, where printing reinforcing maxels alongside the polarity transition boundary improves the magnetic field characteristics of the polarity transition. | 01-30-2014 |
20140022730 | Magnetic Structures and Methods for Defining Magnetic Structures Using One-Dimensional Codes - An improved field emission system and method is provided that involves field emission structures having irregular polarity patterns defined in accordance with one-dimensional codes, where an irregular polarity pattern is at least one of an asymmetrical polarity pattern or an uneven polarity pattern. Such one-dimensional codes define at least one peak force and a plurality of off peak spatial forces corresponding to a plurality of alignments of said first and second field emission structures per code modulo, where a peak force is a spatial force produced when all aligned field emission sources produce an attractive force or all aligned field emission sources produce a repellant force and an off peak spatial force is a spatial force resulting from cancellation of at least one attractive force by at least one repellant force. | 01-23-2014 |
20130314184 | Magnetic Device Using Non Polarized Magnetic Attraction Elements - A magnetic force profile system and related methods and devices based on a sequence of magnets arranged according to a code and acting on a complementary sequence of non-polarized magnetic attraction elements, for example, iron, soft iron, steel, and others. Variations include the addition of polarity codes to the first sequence of magnets, and operation with electromagnets. Exemplary attachment devices and lock and key devices are disclosed. | 11-28-2013 |
20130305522 | SYSTEM AND METHOD FOR MANUFACTURING A FIELD EMISSION STRUCTURE - An improved field emission system and method is provided that involves field emission structures having electric or magnetic field sources. The magnitudes, polarities, and positions of the magnetic or electric field sources are configured to have desirable correlation properties, which may be in accordance with a code. The correlation properties correspond to a desired spatial force function where spatial forces between field emission structures correspond to relative alignment, separation distance, and the spatial force function. | 11-21-2013 |
20130285775 | MULTI-LEVEL MAGNETIC SYSTEM - A multilevel magnetic system described herein includes first and second magnetic structures that produce a net force that transitions from an attract force to a repel force as a separation distance between the first and second magnetic structures increases. The multi-level magnetic system is configured to maintain a minimum separation distance between a transition distance where the net force is zero and a separation distance at which a peak repel force is produced. | 10-31-2013 |
20130269261 | Detachable Cover System - A detachable cover system is described herein for covering an opening of an enclosure. The system comprises an enclosure, a cover, a first magnetic structure attached to the enclosure, a second magnetic system attached to the cover, and a coil in proximity to one of the first magnetic structure and the second magnetic structure. The first and second magnetic structures are configured to magnetically attach such that the cover covers the opening. The coil is controllable to produce a magnetic field that causes magnetic detachment of the first magnetic structure from the second magnetic structure such that said cover no longer covers the opening | 10-17-2013 |
20130222097 | FIELD EMISSION SYSTEM AND METHOD - An improved field emission system and method is provided that involves field emission structures having electric or magnetic field sources. The magnitudes, polarities, and positions of the magnetic or electric field sources are configured to have desirable correlation properties, which may be in accordance with a code. The correlation properties correspond to a desired spatial force function where spatial forces between field emission structures correspond to relative alignment, separation distance, and the spatial force function. | 08-29-2013 |
20130222091 | SYSTEM FOR DETACHING A MAGNETIC STRUCTURE FROM A FERROMAGNETIC MATERIAL - A detachment system includes a first piece of ferromagnetic material, a shunt plate, and at least one simple machine. The first piece of ferromagnetic material has a first side and a second side opposite the first side and has magnetically printed field sources that extend from the first side to the second side. The magnetically printed field sources have a first multi-polarity pattern. The first side of the first piece of ferromagnetic material is magnetically attached to a second piece of ferromagnetic material. The shunt plate is disposed on the second side of the first piece of ferromagnetic material. The shunt plate routes magnetic flux through the first piece of ferromagnetic material from the second side to the first side of the first ferromagnetic material. The at least one simple machine is configured to amplify an applied force into a detachment force to create an angled spacing between the first piece of ferromagnetic material and the second piece of ferromagnetic material. | 08-29-2013 |
20130199031 | SYSTEM AND METHOD FOR MANUFACTURING A FIELD EMISSION STRUCTURE - An improved field emission system and method is provided that involves field emission structures having electric or magnetic field sources. The magnitudes, polarities, and positions of the magnetic or electric field sources are configured to have desirable correlation properties, which may be in accordance with a code. The correlation properties correspond to a desired spatial force function where spatial forces between field emission structures correspond to relative alignment, separation distance, and the spatial force function. | 08-08-2013 |
20130147587 | SYSTEM AND METHOD FOR DEFINING MAGNETIC STRUCTURES - An improved field emission system and method. The invention pertains to field emission structures comprising electric or magnetic field sources having magnitudes, polarities, and positions corresponding to a desired spatial force function where a spatial force is created based upon the relative alignment of the field emission structures and the spatial force function. The spatial force function may be based on one or more codes. In various embodiments, the code may be modified or varied. The code may be combined with another code. One or more aspects of the code, including spacing and amplitude, may be modulated or dithered according to a predefined pattern. Multiple magnet arrays may be combined, each based on a different code or portion of a code, resulting in a combination spatial force function. Magnet structures having differing field patterns may be used to generate a desired spatial force function related to a cross correlation of the two field patterns. | 06-13-2013 |
20130141198 | FIELD EMISSION SYSTEM AND METHOD - An improved field emission system and method is provided that involves field emission structures having electric or magnetic field sources. The magnitudes, polarities, and positions of the magnetic or electric field sources are configured to have desirable correlation properties, which may be in accordance with a code. The correlation properties correspond to a desired spatial force function where spatial forces between field emission structures correspond to relative alignment, separation distance, and the spatial force function. | 06-06-2013 |
20130135071 | SYSTEM AND METHOD FOR FOCUSING MAGNETIC FIELDS - An improved system and method for focusing magnetic fields involves two aligned correlated magnetic structures each comprising an inner portion and an outer portion surrounding the inner portion where the inner portion and the outer portion have an opposite polarity relationship. The focused field magnetic structures produce composite magnetic fields where surface fields have substantially greater field strength than side fields. | 05-30-2013 |
20130128407 | Field Emission System and Method - An improved field emission system and method is provided that involves field emission structures having electric or magnetic field sources. The magnitudes, polarities, and positions of the magnetic or electric field sources are configured to have desirable correlation properties, which may be in accordance with a code. The correlation properties correspond to a desired spatial force function where spatial forces between field emission structures correspond to relative alignment, separation distance, and the spatial force function. | 05-23-2013 |
20130015667 | SYSTEM AND METHOD FOR POWER GENERATION SYSTEM - A power generation system comprises a tube, a coil assembly, a magnetic assembly, and a direct detonation source. The coil assembly comprises at least one coil configured outside the tube. The magnetic assembly comprises at least one magnet inside the tube. The magnetic assembly is configured to move relative to the tube. The direct detonation source produces a detonation impulse that causes one of the tube or the magnetic assembly to move thereby generating power based on the movement of the magnet assembly relative to the coil assembly where the direct detonation source produces the detonation impulse at an ignition point without requiring a period of deflagration. | 01-17-2013 |
20120326821 | MAGNETIC ATTACHMENT SYSTEM - An improved magnetic attachment system is provided that involves field emission structures having electric or magnetic field sources. The magnitudes, polarities, and positions of the magnetic or electric field sources are configured to have desirable correlation properties, which may be in accordance with a code. The correlation properties correspond to a desired spatial force function where spatial forces between field emission structures correspond to relative alignment, separation distance, and the spatial force function. | 12-27-2012 |
20120319809 | FIELD EMISSION SYSTEM AND METHOD - An improved field emission system and method is provided that involves field emission structures having electric or magnetic field sources. The magnitudes, polarities, and positions of the magnetic or electric field sources are configured to have desirable correlation properties, which may be in accordance with a code. The correlation properties correspond to a desired spatial force function where spatial forces between field emission structures correspond to relative alignment, separation distance, and the spatial force function. | 12-20-2012 |
20120319808 | MAGNETIC ATTACHMENT SYSTEM - An improved magnetic attachment system is provided that involves field emission structures having electric or magnetic field sources. The magnitudes, polarities, and positions of the magnetic or electric field sources are configured to have desirable correlation properties, which may be in accordance with a code. The correlation properties correspond to a desired spatial force function where spatial forces between field emission structures correspond to relative alignment, separation distance, and the spatial force function. | 12-20-2012 |
20120306604 | SYSTEM AND METHOD FOR DEFINING MAGNETIC STRUCTURES - An improved field emission system and method. The invention pertains to field emission structures comprising electric or magnetic field sources having magnitudes, polarities, and positions corresponding to a desired spatial force function where a spatial force is created based upon the relative alignment of the field emission structures and the spatial force function. The spatial force function may be based on one or more codes. In various embodiments, the code may be modified or varied. The code may be combined with another code. One or more aspects of the code, including spacing and amplitude, may be modulated or dithered according to a predefined pattern. Multiple magnet arrays may be combined, each based on a different code or portion of a code, resulting in a combination spatial force function. Magnet structures having differing field patterns may be used to generate a desired spatial force function related to a cross correlation of the two field patterns. | 12-06-2012 |
20120286913 | FIELD EMISSION SYSTEM AND METHOD - An improved field emission system and method is provided that involves field emission structures having electric or magnetic field sources. The magnitudes, polarities, and positions of the magnetic or electric field sources are configured to have desirable correlation properties, which may be in accordance with a code. The correlation properties correspond to a desired spatial force function where spatial forces between field emission structures correspond to relative alignment, separation distance, and the spatial force function. | 11-15-2012 |
20120286912 | FIELD EMISSION SYSTEM AND METHOD - An improved field emission system and method is provided that involves field emission structures having electric or magnetic field sources. The magnitudes, polarities, and positions of the magnetic or electric field sources are configured to have desirable correlation properties, which may be in accordance with a code. The correlation properties correspond to a desired spatial force function where spatial forces between field emission structures correspond to relative alignment, separation distance, and the spatial force function. | 11-15-2012 |
20120284969 | MAGNETIC ATTACHMENT SYSTEM - An improved magnetic attachment is disclosed including a mechanical constraining mechanism and a magnetic structure comprising a plurality of magnetic sources in a polarity pattern. The magnetic structure has an interface boundary when magnetically interfacing with a complementary magnetic structure. The mechanical constraining mechanism constrains the relative motion of the magnetic structure to one or more degrees of freedom. | 11-15-2012 |
20120256715 | MAGNETIC ATTACHMENT SYSTEM - An improved magnetic attachment system is provided that involves field emission structures having electric or magnetic field sources. The magnitudes, polarities, and positions of the magnetic or electric field sources are configured to have desirable correlation properties, which may be in accordance with a code. The correlation properties correspond to a desired spatial force function where spatial forces between field emission structures correspond to relative alignment, separation distance, and the spatial force function. | 10-11-2012 |
20120256532 | PANEL SYSTEM FOR COVERING A GLASS OR PLASTIC SURFACE - An improved panel system for covering a glass or plastic surface is provided that involves field emission structures having electric or magnetic field sources. The magnitudes, polarities, and positions of the magnetic or electric field sources are configured to have desirable correlation properties, which may be in accordance with a code. The correlation properties correspond to a desired spatial force function where spatial forces between field emission structures correspond to relative alignment, separation distance, and the spatial force function. | 10-11-2012 |
20120246885 | Magnetic Attachment System - A magnetic attachment system for attaching a first object to a second object. A first magnet structure is attached to the first object and a second magnet structure is attached to the second object. The first and second objects are attached by virtue of the magnetic attraction between the first magnet structure and second magnet structure. The magnet structures comprise magnetic elements arranged in accordance with patterns based on various codes. In one embodiment, the code has certain autocorrelation properties. In further embodiments the specific type of code is specified. In a further embodiment, an attachment and a release configuration may be achieved by a simple movement of the magnet structures. In a further embodiment, a magnetic attachment system may comprise one or more magnetic structures spaced from one another on a first support and configured for use with a complementary magnet system. | 10-04-2012 |
20120244732 | ELECTRICAL ADAPTER SYSTEM - An electrical adapter, the adapter including an Edison screw base configured to receive a primary voltage from a voltage source, a voltage converter circuit configured to convert the primary voltage to the secondary voltage, and a first electrical connector part configured to be detachably coupled to a second electrical connector part of an electrical fixture configured to be powered by the secondary voltage. | 09-27-2012 |
20120242440 | SYSTEM FOR DETACHMENT OF CORRELATED MAGNETIC STRUCTURES - A system for detachment of correlated magnetic structures includes first and second correlated magnetic structure having complementary coded magnetic sources; and a tool that applies a bias magnet field to cause a transition of the first and second magnetic structures from a closed state in which the first and second magnetic structures are attached to an open state in which the first and second magnetic structures are detached. | 09-27-2012 |
20120229241 | Magnetic Attachment System - A magnetic attachment system is described. The magnetic attachment system has a first plurality of magnetic sources arranged in accordance with a first pattern and a second polarity of magnetic sources arranged in accordance with a second pattern. The first pattern and second pattern are self-complementary, where the magnetic attachment system will correlate and align with a duplicate magnetic attachment system. | 09-13-2012 |
20120229236 | Magnetic Attachment System Having a Non-Magnetic Region - A magnetic attachment system for attaching a first object to a second object. A first magnet structure is attached to the first object and a second magnet structure is attached to the second object. The first and second objects are attached by virtue of the magnetic attraction between the first magnet structure and second magnet structure. The magnet structures comprise magnetic elements arranged in accordance with patterns based on various codes. In one embodiment, the code has certain autocorrelation properties. In further embodiments the specific type of code is specified. In a further embodiment, an attachment and a release configuration may be achieved by a simple movement of the magnet structures. In a further embodiment, the magnetic pattern may include a non-magnetic region. | 09-13-2012 |
20120229235 | Magnetic Attachment System Having Composite Magnet Structures - A magnetic attachment system for attaching a first object to a second object. A first magnet structure is attached to the first object and a second magnet structure is attached to the second object. The first and second objects are attached by virtue of the magnetic attraction between the first magnet structure and second magnet structure. The magnet structures comprise magnetic elements arranged in accordance with patterns based on various codes. In one embodiment, the code has certain autocorrelation properties. In further embodiments the specific type of code is specified. In a further embodiment, an attachment and a release configuration may be achieved by a simple movement of the magnet structures. In a further embodiment, the magnetic field structure may comprise multiple structures based on multiple codes. | 09-13-2012 |
20120218064 | Magnetic Switch for Operating a Circuit - A multilevel correlated magnetic system and method for using the same are described herein. A wide-range of devices including a retractable magnet assembly, a disengagement/engagement tool, a click on-click off device are described herein that may incorporate or interact with one or more of the multilevel correlated magnetic systems. | 08-30-2012 |
20120146752 | System and method for affecting flux of multi-pole magnetic structures - A shunt plate is provided that is associated with a first side of a multi-pole magnetic structure. The shunt plate provides a magnetic short between opposite polarity magnetic sources on the first side of said magnetic structure, the magnetic short causing a magnetic flux of said opposite polarity magnetic sources to be routed from said first side of the magnetic structure through said magnetic structure to the second side of said magnetic structure. The thickness of the shunt plate is selected by determining the integrated flux across a magnetic source of the magnetic structure such that the corresponding flux density in the shunt plate does not substantially exceed the flux density saturation level of a cross section of the shunt plate. | 06-14-2012 |
20120139675 | TECHNIQUES FOR PRODUCING AN ELECTRICAL PULSE - Embodiments of the present invention provide an apparatus, comprising a field emission source having polarities and positions in accordance with a code, a plurality of connected coils adapted to move proximate to said field emission source and having positions in accordance with said code, and wherein an electrical pulse is created when said field emission source is aligned with said plurality of connected coils according to said code. | 06-07-2012 |
20120112865 | Key System For Enabling Operation Of A Device - A key system for enabling operation of a device. The key system is based on magnets arranged according to one or more codes. The codes may act as a unique identifier or key, requiring a matching part to operate the device. Thus, the code can act like a key that will only achieve lock when matched with a like (complementary) pattern. The codes may be from a set of codes having low cross correlation among codes in the set, for example Kasami codes or Gold codes. | 05-10-2012 |
20120091847 | ELECTROMAGNETIC STRUCTURE HAVING A CORE ELEMENT THAT EXTENDS MAGNETIC COUPLING AROUND OPPOSING SURFACES OF A CIRCULAR MAGNETIC STRUCTURE - An electromagnetic structure comprises a rotor assembly having at least one circular magnetic structure. The structure has opposing first and second surfaces that extend around a peripheral boundary region. A plurality of emission regions are disposed along said peripheral boundary region, with each emission region presenting poles having opposite polarities of a first polarity and a second polarity on the opposing first and second surfaces of the circular magnetic structure. Adjacent emission regions have alternating pole orientations such that each emission source having the first polarity is between two emission sources having the second polarity and each emission source having the second polarity is between two emission sources having the first polarity. A rotational element rotates the at least one circular magnetic structure about a rotation axis that is perpendicular to the opposing first and second surfaces. | 04-19-2012 |
20120026843 | Stepping motor with a coded pole pattern - The present invention relates to a stepping motor with a magnet pole pattern having a predetermined pattern around the circumference of the stepping motor. In one embodiment, the pattern relates to a code having a unique single maximum autocorrelation peak over the period of the code. Example codes include Barker codes, PN codes, Kasami codes, Golomb ruler codes, and other codes. In one embodiment, the rotor and stator have a matching pole pattern. In one embodiment, the drive is arranged to align the poles in an inline configuration, alternatively, the drive may be arranged to align the poles in a diagonal configuration. In a further embodiment, one or more sets of poles are provided on the stator, each set being offset rotationally by a partial pole spacing. In one embodiment, the rotor is initially synchronized with the stator by capturing the rotor using a single unambiguous lock-in position based on the code autocorrelation. | 02-02-2012 |