Patents by Inventor Yihe Hua
Yihe Hua has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 11774531Abstract: A magnetic resonance (MR) system is provided. The system includes a main magnet assembly configured to generate a polarizing magnetic field, a gradient coil assembly including a plurality of gradient coils configured to apply at least one gradient field to the polarizing magnetic field, and a shield assembly positioned between the main magnet assembly and the gradient coil assembly. The shield assembly includes a conductive layer fabricated with an electrically conductive material and defining grooves positioned through the conductive layer, wherein the grooves are configured to block motional eddy currents caused by actions of the polarizing magnetic field and the at least one gradient field when the at least one gradient field is applied.Type: GrantFiled: May 4, 2022Date of Patent: October 3, 2023Assignee: GE PRECISION HEALTHCARE LLCInventors: Seung-Kyun Lee, Yihe Hua
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Patent number: 11604239Abstract: A system for minimizing MGI in a superconducting magnet system of an MRI system includes a thermal shield having bi-metal material. The thermal shield is configured to be disposed about a cold mass of the superconducting magnet system, wherein the bi-metal material is configured to minimize MGI.Type: GrantFiled: August 19, 2021Date of Patent: March 14, 2023Assignee: GE Precision Healthcare LLCInventors: Minfeng Xu, Anbo Wu, Yihe Hua, Mark Ernest Vermilyea, Thomas Kwok-Fah Foo, Paul St. Mark Shadforth Thompson
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Publication number: 20230057231Abstract: A system for minimizing MGI in a superconducting magnet system of an MRI system includes a thermal shield having bi-metal material. The thermal shield is configured to be disposed about a cold mass of the superconducting magnet system, wherein the bi-metal material is configured to minimize MGI.Type: ApplicationFiled: August 19, 2021Publication date: February 23, 2023Inventors: Minfeng Xu, Anbo Wu, Yihe Hua, Mark Ernest Vermilyea, Thomas Kwok-Fah Foo, Paul St. Mark Shadforth Thompson
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Patent number: 10770211Abstract: A superconducting magnet system is provided. The superconducting magnet system includes a coil former, superconducting coils supported by the coil former, and one or more cooling assemblies. The cooling assemblies are in thermal contact with the coil former and include one or more cooling tubes for receiving a cryogen passed therethrough. The cooling assemblies are detachably mounted on the coil former and form at least one cooling circuit therein. The cooling assemblies include one or more flat surfaces attached on a surface of the coil former. A method of manufacturing the same is also provided.Type: GrantFiled: April 28, 2016Date of Patent: September 8, 2020Assignee: GE Precision Healthcare LLCInventors: GuangZhou Li, Anbo Wu, Yihe Hua, Minfeng Xu, Evangelos Trifon Laskaris
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Patent number: 10684336Abstract: An imaging device may include a patient bore to house a subject to be imaged, wherein the patient bore includes one or more bore tubes. The imaging device may also include a gradient coil surrounding, at least partially, the patient bore and a radio frequency (RF) shield located outside the one or more bore tubes. Additionally, the imaging device may include an RF coil located within at least one of the bore tubes.Type: GrantFiled: October 24, 2018Date of Patent: June 16, 2020Assignee: GENERAL ELECTRIC COMPANYInventors: Mark Ernest Vermilyea, Justin Michael Ricci, Christina Vasil, Ek Tsoon Tan, Eric William Fiveland, Yihe Hua, Thomas Kwok-Fah Foo
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Publication number: 20200132792Abstract: An imaging device may include a patient bore to house a subject to be imaged, wherein the patient bore includes one or more bore tubes. The imaging device may also include a gradient coil surrounding, at least partially, the patient bore and a radio frequency (RF) shield located outside the one or more bore tubes. Additionally, the imaging device may include an RF coil located within at least one of the bore tubes.Type: ApplicationFiled: October 24, 2018Publication date: April 30, 2020Inventors: Mark Ernest Vermilyea, Justin Michael Ricci, Christina Vasil, Ek Tsoon Tan, Eric William Fiveland, Yihe Hua, Thomas Kwok-Fah Foo
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Patent number: 10488477Abstract: A gradient coil unit having a peripheral surface enclosing a magnetic gradient axis, and a middle plane substantially perpendicular to the magnetic gradient axis at a middle portion of the gradient coil unit, comprising at least one folded coil which comprises a first set of curved conductors disposed on a first curved surface; a second set of curved conductors disposed on a second curved surface outside the first curved surface and substantially overlapping the first set of curved conductors; and a set of connecting conductors connecting selected curved conductors in the first set with selected curved conductors in the second set; wherein the set of connecting conductors is located at a first side of the middle plane.Type: GrantFiled: April 28, 2016Date of Patent: November 26, 2019Assignee: General Electric CompanyInventors: Jian Lin, Jean-Baptiste Mathieu, Yihe Hua, Seung-Kyun Lee, Dominic Michael Graziani
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Patent number: 10416254Abstract: A magnetic resonance imaging system includes at least one gradient coil, at least one coil former, a thermal shield assembly, and at least one linking member. The at least one gradient coil generates at least one gradient field along at least one direction in response to pulsed signals. The at least one coil former is attached with at least one coil. The thermal shield assembly is arranged adjacent to the at least one coil former. The at least one linking member is configured for increasing mechanical rigidity of the thermal shield assembly by mechanically linking at least a part of the thermal shield assembly with the at least one coil former. As a result, mechanical vibrations of the thermal shield assembly can be reduced.Type: GrantFiled: March 26, 2014Date of Patent: September 17, 2019Assignee: General Electric CompanyInventors: Evangelos Trifon Laskaris, Longzhi Jiang, Yihe Hua
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Publication number: 20180156880Abstract: A gradient coil unit having a peripheral surface enclosing a magnetic gradient axis, and a middle plane substantially perpendicular to the magnetic gradient axis at a middle portion of the gradient coil unit, comprising at least one folded coil which comprises a first set of curved conductors disposed on a first curved surface; a second set of curved conductors disposed on a second curved surface outside the first curved surface and substantially overlapping the first set of curved conductors; and a set of connecting conductors connecting selected curved conductors in the first set with selected curved conductors in the second set; wherein the set of connecting conductors is located at a first side of the middle plane.Type: ApplicationFiled: April 28, 2016Publication date: June 7, 2018Inventors: Jian Lin, Jean-Baptiste Mathieu, Yihe Hua, Seung-Kyun Lee, Dominic Michael Graziani
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Publication number: 20180144851Abstract: A superconducting magnet system is provided. The superconducting magnet system includes a coil former, superconducting coils supported by the coil former, and one or more cooling assemblies. The cooling assemblies are in thermal contact with the coil former and include one or more cooling tubes for receiving a cryogen passed therethrough. The cooling assemblies are detachably mounted on the coil former and form at least one cooling circuit therein. The cooling assemblies include one or more flat surfaces attached on a surface of the coil former. A method of manufacturing the same is also provided.Type: ApplicationFiled: April 28, 2016Publication date: May 24, 2018Inventors: GuangZhou Li, Anbo Wu, Yihe Hua, Minfeng Xu, Evangelos Trifon Laskaris
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Publication number: 20160054406Abstract: A magnetic resonance imaging system includes at least one gradient coil, at least one coil former, a thermal shield assembly, and at least one linking member. The at least one gradient coil generates at least one gradient field along at least one direction in response to pulsed signals. The at least one coil former is attached with at least one coil. The thermal shield assembly is arranged adjacent to the at least one coil former. The at least one linking member is configured for increasing mechanical rigidity of the thermal shield assembly by mechanically linking at least a part of the thermal shield assembly with the at least one coil former. As a result, mechanical vibrations of the thermal shield assembly can be reduced.Type: ApplicationFiled: March 26, 2014Publication date: February 25, 2016Inventors: Evangelos Trifon LASKARIS, Longzhi JIANG, Yihe HUA
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Patent number: 7639013Abstract: With a view toward implementing a thermal controlling method for making reversible a temperature characteristic of a magnetic field generator using permanent magnets small in Hcj, a magnetic field generator whose temperature characteristic is reversible, using permanent magnets small in Hcj, and an MRI apparatus provided with such a magnetic field generator, there is provided a method for controlling the temperature of a magnetic field generator having a pair of disc-shaped permanent magnets whose magnetic poles opposite in polarity to each other are opposed to each other with spacing defined therebetween, and a yoke that forms return passes for magnetic fluxes of the permanent magnets, comprising the steps of raising the temperature from room temperature to a temperature higher than the room temperature, maintaining the temperature higher than the room temperature, and lowering the temperature from the temperature higher than the room temperature to the room temperature, whereby the temperature characteristiType: GrantFiled: July 13, 2007Date of Patent: December 29, 2009Assignee: GE Medical Systems Global Technology Company, LLCInventors: Fengshun Tan, Weijun Shen, Yihe Hua, Liang Liu
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Publication number: 20090072939Abstract: A magnet system having a pair of parallel plate-like permanent magnets in which magnetic poles of reversed polarities are opposed to each other with a space therebetween. The pair of permanent magnets includes main portions magnetized in the same direction as their thickness direction, and peripheral portions magnetized in a direction different from their thickness direction.Type: ApplicationFiled: September 12, 2008Publication date: March 19, 2009Inventors: Weijun Shen, Fengshun Tan, Guanghui Shen, Yihe Hua, Ye Zhu
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Publication number: 20080048656Abstract: With a view toward implementing a thermal controlling method for making reversible a temperature characteristic of a magnetic field generator using permanent magnets small in Hcj, a magnetic field generator whose temperature characteristic is reversible, using permanent magnets small in Hcj, and an MRI apparatus provided with such a magnetic field generator, there is provided a method for controlling the temperature of a magnetic field generator having a pair of disc-shaped permanent magnets whose magnetic poles opposite in polarity to each other are opposed to each other with spacing defined therebetween, and a yoke that forms return passes for magnetic fluxes of the permanent magnets, comprising the steps of raising the temperature from room temperature to a temperature higher than the room temperature, maintaining the temperature higher than the room temperature, and lowering the temperature from the temperature higher than the room temperature to the room temperature, whereby the temperature characteristiType: ApplicationFiled: July 13, 2007Publication date: February 28, 2008Inventors: Fengshun Tan, Weijun Shen, Yihe Hua, Liang Liu