Patent application number | Description | Published |
20110227670 | MEDIUM / HIGH VOLTAGE INDUCTOR APPARATUS AND METHOD OF USE THEREOF - The invention comprises an inductor configured for filtering medium and/or high voltage power. The inductor includes an inductor core formed of a plurality of coated magnetic particles, each of a majority of the coated magnetic particles including: a magnetic particle core and a non-magnetic coating about a corresponding magnetic particle core. The inductor optionally includes: (1) a main inductor spacer separating a first turn of a winding from a terminal turn of the winding and (2) a segmenting spacer separating two consecutive turns of the winding about said core. The inductor is configured to convert power into an output current, such as power of at least one thousand five hundred volts with an input current of at least fifty amperes. | 09-22-2011 |
20110227681 | LIQUID COOLED INDUCTOR APPARATUS AND METHOD OF USE THEREOF - The invention comprises a liquid cooled inductor system including at least an inductor and an immersion fluid directly contacting at least a portion of the inductor, such as an inductor core and/or an inductor winding. The immersion fluid is a substantially non-electrically conducting fluid. Preferably, the inductor comprises an inductor core, such as an annularly shaped core, having a plurality of sub-millimeter sized coated particles having alternating magnetic and non-magnetic layers. Optionally, a cooling coil passes through the immersion fluid, the cooling coil carrying a liquid coolant used to remove heat from the inductor. | 09-22-2011 |
20110227682 | POTTED INDUCTOR APPARATUS AND METHOD OF USE THEREOF - The invention comprises a potted inductor, where a solid potting material substantially contacting the inductor enhances cooling of the inductor. The inductor comprises an annular core composed of a distributed gap material, where the distributed gap material includes sub-millimeter particles of alternating magnetic and non-magnetic layers separated by gaps. The potting material includes a urethane, resin, epoxy, or the like combined with a lower thermal impedance additive, such as a silica sand or an aluminum oxide. Optionally, one or more cooling lines direct a circulating coolant flow through the potting material, around the inductor, and/or through the inductor. | 09-22-2011 |
20110267161 | METHOD AND APPARATUS FOR COOLING AN ANNULAR INDUCTOR - An inductor cooling method and apparatus is provided, where the inductor comprises both a substantially annular core and an aperture therethrough. The aperture is circumferentially surrounded by the substantially annular core. A container holds a substantially non-conductive coolant and the inductor is immersed in the coolant. Optional spacers hold the inductor away from the container to allow room for coolant circulation. | 11-03-2011 |
20120075048 | INDUCTOR MOUNTING APPARATUS AND METHOD OF USE THEREOF - The invention comprises an inductor mounting method and apparatus. An about annular inductor is mounted using a non-conducting mount element passing at least into a center opening of the inductor. Mounting hardware forces an edge surface of the mount into proximate contact with an edge of the inductor, where the mount and mounting hardware minimally contact the inductor. The mount optionally includes holes and/or grooves to further reduce mount/inductor contact, which aids liquid, convective, and/or radiative cooling of the inductor. The inductor is optionally composed of particles of magnetic material coated with carbon and embedded into an epoxy to yield a distributed gap material. | 03-29-2012 |
20120139680 | MEDIUM / HIGH VOLTAGE INDUCTOR APPARATUS AND METHOD OF USE THEREOF - The invention comprises an inductor configured for filtering medium and/or high voltage power. The inductor includes an inductor core formed of a plurality of coated magnetic particles, each of a majority of the coated magnetic particles including: a magnetic particle core and a non-magnetic coating about a corresponding magnetic particle core. The inductor optionally includes: (1) a main inductor spacer separating a first turn of a winding from a terminal turn of the winding and (2) a segmenting spacer separating two consecutive turns of the winding about said core. The inductor is configured to convert power into an output current, such as power of at least one thousand five hundred volts with an input current of at least fifty amperes. | 06-07-2012 |
20120223792 | PHASE CHANGE INDUCTOR COOLING APPARATUS AND METHOD OF USE THEREOF - The invention comprises a phase change inductor cooling system. The cooling system uses a non-conductive refrigerant in proximate and/or in direct contact with an inductor. Heat from the inductor changes the refrigerant from a liquid to a gas phase, which removes heat from the inductor. The gas phase refrigerant is subsequently removed from the inductor to remove heat from the environment about the inductor. The refrigerant is optionally recirculated using the steps of condensing and/or compressing the refrigerant prior to reintroduction into the environment proximate and/or in direct contact with the inductor. | 09-06-2012 |
20120286914 | POWER CONVERTER METHOD AND APPARATUS - The invention comprises a power converter method and apparatus, which is optionally part of a filtering method and apparatus. A corona potential is the potential for long term breakdown of winding wire insulation due to the high electric potentials between winding turns winding a mid-level power inductor in a converter system. The high electric potential creates ozone, which breaks down insulation coating the winding wire and results in degraded performance or failure of the inductor. In one embodiment, the inductor is configured with inductor winding spacers, such as a main inductor spacer and/or inductor segmenting winding spacers. The spacers are used to space winding turns of a winding coil about an inductor. The insulation of the inductor spacer minimizes energy transfer between windings and thus minimizes corona potential, formation of corrosive ozone through ionization of oxygen, correlated breakdown of insulation on the winding wire, and electrical shorts in the inductor. | 11-15-2012 |
20130308351 | HIGH VOLTAGE INDUCTOR FILTER APPARATUS AND METHOD OF USE THEREOF - The invention comprises a high frequency inductor filter apparatus coupled with an inverter yielding high frequency harmonics and/or non-sixty Hertz output. For example, an inductor/converter apparatus is provided that uses a silicon carbide transistor to output power having a carrier frequency, modulated by a fundamental frequency, and a set of harmonic frequencies. A filter, comprising an inductor having a distributed gap core material and optional magnet wires, receives power output from the inverter/converter and processes the power by passing the fundamental frequency while reducing amplitude of the harmonic frequencies. | 11-21-2013 |
20140191834 | INDUCTOR APPARATUS AND METHOD OF MANUFACTURE THEREOF - The invention comprises an electrical apparatus and method of manufacture. The apparatus includes a substantially annular inductor comprising an inductor core composed of at least a distributed gap material. The distributed gap material includes particles of alternating layers of magnetic and non-magnetic materials separated by a gap material. The particles comprise an average layer thickness of less than about one hundred micrometers, where a majority of said layered particles comprise an average cross sectional size of less than about one millimeter. The inductor is cooled using at least one of: a thermally conductive potting material, a liquid coolant in direct contact with the inductor, a cooling line through the potting material or liquid coolant, and a chill coil in a container about the potting material and/or the liquid coolant. | 07-10-2014 |
20150029765 | HIGH FREQUENCY INDUCTOR FILTER APPARATUS AND METHOD OF USE THEREOF - The invention comprises a high frequency inductor filter apparatus coupled with an inverter yielding high frequency harmonics and/or non-sixty Hertz output. For example, an inductor/converter apparatus is provided using a silicon carbide transistor that outputs power having a carrier frequency, modulated by a fundamental frequency, and a set of harmonic frequencies. A filter, comprising an inductor having a distributed gap core material and optional magnet wires, receives power output from the inverter/converter and processes the power by passing the fundamental frequency while reducing amplitude of the harmonic frequencies. | 01-29-2015 |
20150035466 | DISTRIBUTED GAP INDUCTOR FILTER APPARATUS AND METHOD OF USE THEREOF - The invention comprises a high frequency inductor filter apparatus coupled with an inverter yielding high frequency harmonics and/or non-sixty Hertz output. For example, an inductor/converter apparatus is provided that uses a silicon carbide transistor to output power having a carrier frequency, modulated by a fundamental frequency, and a set of harmonic frequencies. A filter, comprising an inductor having a distributed gap core material and optional magnet wires, receives power output from the inverter/converter and processes the power by passing the fundamental frequency while reducing amplitude of the harmonic frequencies. | 02-05-2015 |
20150035467 | PERMANENT MAGNET INDUCTOR FILTER APPARATUS AND METHOD OF USE THEREOF - The invention comprises a high frequency inductor filter apparatus coupled with an inverter yielding high frequency harmonics and/or non-sixty Hertz output. For example, an inductor/converter apparatus is provided that uses a silicon carbide transistor to output power having a carrier frequency, modulated by a fundamental frequency, and a set of harmonic frequencies. A filter, comprising an inductor having a distributed gap core material and optional magnet wires, receives power output from the inverter/converter and processes the power by passing the fundamental frequency while reducing amplitude of the harmonic frequencies. | 02-05-2015 |