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公开(公告)号:US20240044725A1
公开(公告)日:2024-02-08
申请号:US18364255
申请日:2023-08-02
Inventor: Alan J. O'Donnell , Javier Calpe Maravilla , Jan Kubík , Jochen Schmitt , Shaun Bradley , Stanislav Jolondcovschi , Padraig L. Fitzgerald , Alfonso Berduque , Gavin Patrick Cosgrave , Michael P. Lynch , Eoin Edward English
Abstract: Aspects of this disclosure relate to force based on a profile of magnetically sensitive material in a container. One or more sensors can detect the profile of the magnetically sensitive material, where the profile is associated with a force applied to the container. The profile includes magnetically sensitive material concentrated in one or more particular areas within the container. Related systems and methods for force detection are disclosed.
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公开(公告)号:US20240003753A1
公开(公告)日:2024-01-04
申请号:US18343477
申请日:2023-06-28
Inventor: Alan O'DONNELL , Gavin Cosgrave , Michael J. Clifford , Michael P. Lynch , Jochen Schmitt , Jan Kubik , Javier Calpe , Shaun Stephen Bradley , Stanislav Jolondcovschi , Padraig L. Fitzgerald , Alfonso Berduque
Abstract: Aspects of the present disclosure include using particles in phase change materials to track temperature change of an object. The particles may be initially disposed at specific locations within the phase change materials. As the phase change materials transition from the solid state to the fluid state, the particles may move from the initial locations to different locations. The change in locations of the particles may be detected magnetically, electrically, optically, and/or visually. Such change may indicate that the object experienced a temperate above at least one phase transition temperature of the phase change materials.
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Patent Agency Ranking
公开(公告)号:US20230349987A1
公开(公告)日:2023-11-02
申请号:US18299627
申请日:2023-04-12
Inventor: Alan J. O’Donnell , Shaun Bradley , Alfonso Berduque , Jan Kubík , Jochen Schmitt , Stanislav Jolondcovschi , Javier Calpe Maravilla , Padraig L. Fitzgerald , Gavin Patrick Cosgrave , Michael P. Lynch , Eoin Edward English
CPC classification number: G01R33/0213 , G01K11/06
Abstract: Aspects of this disclosure relate to generating measurements based on positions of particles within one or more compartments. At least some of the particles can move in response to an external stimulus. A comparative measurement can be provided based on comparing the measurements. The measurements can be associated with two or more types of particles and/or two or more compartments.
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公开(公告)号:US20230152166A1
公开(公告)日:2023-05-18
申请号:US18053523
申请日:2022-11-08
Inventor: Alan J. O'Donnell , Alfonso Berduque , Javier Calpe Maravilla , Shaun Bradley , Padraig L. Fitzgerald , Jan Kubík , Stanislav Jolondcovschi , Jochen Schmitt , Gavin Patrick Cosgrave , Eoin Edward English , Michael P. Lynch
Abstract: Aspects of this disclosure relate to detecting temperature based on movement of one or more particles within a container. The container includes a medium material. Mobility of the one or more particles in the medium material changes in response to a change in temperature.
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公开(公告)号:US20230098962A1
公开(公告)日:2023-03-30
申请号:US17933600
申请日:2022-09-20
Inventor: Alan J. O'Donnell , Javier Calpe Maravilla , Alfonso Berduque , Shaun Bradley , Jochen Schmitt , Jan Kubík , Stanislav Jolondcovschi , Padraig L. Fitzgerald , Eoin Edward English , Gavin Patrick Cosgrave , Michael P. Lynch
Abstract: Aspects of this disclosure relate to one or more particles that move within a container in response to a magnetic field. A measurement circuit is configured to output an indication of the magnetic field based on position of the one or more particles.
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公开(公告)号:US20240405517A1
公开(公告)日:2024-12-05
申请号:US18679348
申请日:2024-05-30
Inventor: David J. Clarke , Alan J. O'Donnell , Shaun Bradley , Stephen Denis Heffernan , Patrick Martin McGuinness , Padraig L. Fitzgerald , Edward John Coyne , Michael P. Lynch , John Anthony Cleary , John Ross Wallrabenstein , Paul Joseph Maher , Andrew Christopher Linehan , Gavin Patrick Cosgrave , Michael James Twohig , Jan Kubik , Jochen Schmitt , David Aherne , Mary McSherry , Anne M. McMahon , Stanislav Jolondcovschi , Cillian Burke
Abstract: Apparatuses including spark gap structures for electrical overstress (EOS) monitoring or protection, and associated methods, are disclosed. In an aspect, a spark gap array includes a sheet resistor and an array of arcing electrode pairs formed over a substrate. The array of arcing electrode pairs includes first arcing electrodes formed on the sheet resistor and a second arcing electrode arranged as a sheet formed over the first arcing electrodes and separated from the first arcing electrodes by an arcing gap. The first arcing electrodes and second arcing electrode are electrically connected to first and second voltage nodes, respectively, and the arcing electrode pairs are configured to generate arc discharges in response to an EOS voltage signal received between the first and second voltage nodes.
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17.发明公开公开(公告)号:US20240003754A1
公开(公告)日:2024-01-04
申请号:US18343488
申请日:2023-06-28
Inventor: Alan O'Donnell , Michael J. Clifford , Alfonso Berduque , Michael P. Lynch , Jochen Schmitt , Jan Kubik , Javier Calpe , Shaun Stephen Bradley , Stanislav Jolondcovschi , Gavin P. Cosgrave , Padraig L. Fitzgerald
CPC classification number: G01K11/06 , G01K1/02 , G01K1/16 , G01K2217/00
Abstract: Aspects of the present disclosure include using particles in phase change materials to track temperature change of an object. The particles may be initially disposed at specific locations within the phase change materials. As the phase change materials transition from the solid state to the fluid state, the particles may move from the initial locations to different locations. The change in locations of the particles may be detected magnetically, electrically, optically, and/or visually. Such change may indicate that the object experienced a temperate above at least one phase transition temperature of the phase change materials.
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