Patents by Inventor Andrew Slade
Andrew Slade 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: 11743986Abstract: A luminaire including an input driven in a first polarity and a second polarity reversed from the first polarity, a first light source coupled to the input and adapted to generate visible light within a first wavelength range at a first intensity when the input is driven in the first polarity and adapted to generate visible light within the first wavelength range at a second intensity less than the first intensity when the input is driven in the second polarity, and a second light source coupled to the input and adapted to generate light within a second wavelength range, different than first wave length range, at a third intensity when the input is driven in the second polarity and adapted to generate light within the second wavelength range at a fourth intensity less than the third intensity when the input is driven in the first polarity.Type: GrantFiled: May 14, 2021Date of Patent: August 29, 2023Assignee: Electronic Theatre Controls, Inc.Inventors: Adam Bennette, David J. Cahalane, Andrew Slade
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Patent number: 11252794Abstract: A light fixture is configured to produce an output via a driver circuit to drive an array of LED light sources. Controlling the light fixture includes receiving a first light intensity value related to a light intensity value for the array of LED light sources, determining a first dimming curve based on the first light intensity value and a color temperature value to determine a first value, receiving a second light intensity value related to a light intensity value for the array of LED light sources at which the color temperature value for the output of the light fixture is achieved, wherein the second light intensity value is different than the first light intensity value, determining a second dimming curve based on the second light intensity value and the color temperature value to determine a second value, wherein the second dimming curve is different than the first dimming curve.Type: GrantFiled: September 12, 2019Date of Patent: February 15, 2022Assignee: Electronic Theatre Controls, Inc.Inventors: John Thurk, Joe Garvey, Andrew Slade, Derek Krouze
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Publication number: 20210360757Abstract: A luminaire including an input driven in a first polarity and a second polarity reversed from the first polarity, a first light source coupled to the input and adapted to generate visible light within a first wavelength range at a first intensity when the input is driven in the first polarity and adapted to generate visible light within the first wavelength range at a second intensity less than the first intensity when the input is driven in the second polarity, and a second light source coupled to the input and adapted to generate light within a second wavelength range, different than first wave length range, at a third intensity when the input is driven in the second polarity and adapted to generate light within the second wavelength range at a fourth intensity less than the third intensity when the input is driven in the first polarity.Type: ApplicationFiled: May 14, 2021Publication date: November 18, 2021Inventors: Adam Bennette, David J. Cahalane, Andrew Slade
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Publication number: 20200314974Abstract: A light fixture is configured to produce an output via a driver circuit to drive an array of LED light sources. Controlling the light fixture includes receiving a first light intensity value related to a light intensity value for the array of LED light sources, determining a first dimming curve based on the first light intensity value and a color temperature value to determine a first value, receiving a second light intensity value related to a light intensity value for the array of LED light sources at which the color temperature value for the output of the light fixture is achieved, wherein the second light intensity value is different than the first light intensity value, determining a second dimming curve based on the second light intensity value and the color temperature value to determine a second value, wherein the second dimming curve is different than the first dimming curve.Type: ApplicationFiled: September 12, 2019Publication date: October 1, 2020Inventors: John Thurk, Joe Garvey, Andrew Slade, Derek Krouze
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Patent number: 9972429Abstract: A superconducting current pump arranged to cause a DC electrical current to flow through a superconducting circuit accommodated within a cryogenic enclosure of a cryostat comprises a rotor external to the cryogenic enclosure and a stator within the cryogenic enclosure, the rotor and stator separated by a gap through which passes a thermally insulating wall of the cryogenic enclosure, the rotor and the stator comprising at least in part a ferromagnetic material to concentrate magnetic flux in a magnetic circuit across the gap between the rotor and the stator and through the wall, so that movement of the rotor external to the cryogenic enclosure relative to the stator within the cryogenic enclosure induces a DC transport current to flow around the superconducting circuit within the cryogenic enclosure.Type: GrantFiled: August 11, 2015Date of Patent: May 15, 2018Inventors: Rowan Martin Walsh, Christopher William Bumby, Rodney Alan Badcock, Robert Andrew Slade, Zhenan Jiang, Kent Anthony Hamilton, Michael Graeme Fee
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Publication number: 20170236627Abstract: A superconducting current pump arranged to cause a DC electrical current to flow through a superconducting circuit accommodated within a cryogenic enclosure of a cryostat comprises a rotor external to the cryogenic enclosure and a stator within the cryogenic enclosure, the rotor and stator separated by a gap through which passes a thermally insulating wall of the cryogenic enclosure, the rotor and the stator comprising at least in part a ferromagnetic material to concentrate magnetic flux in a magnetic circuit across the gap between the rotor and the stator and through the wall, so that movement of the rotor external to the cryogenic enclosure relative to the stator within the cryogenic enclosure induces a DC transport current to flow around the superconducting circuit within the cryogenic enclosure.Type: ApplicationFiled: August 11, 2015Publication date: August 17, 2017Inventors: Rowan Martin Walsh, Christopher William Bumby, Rodney Alan Badcock, Robert Andrew Slade, Zhenan Jiang, Kent Anthony Hamilton, Michael Graeme Fee
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Patent number: 7701218Abstract: A magnet assembly for use in carrying out nuclear magnetic resonance experiments on a body or sample. The assembly comprises a set of superconducting coils within a cryostat, located about a bore, and arranged to generate a substantially uniform magnetic field in a primary working volume within the bore, and to generate a substantially uniform magnetic field in a secondary working volume within the coil structure and separate from the bore. At least part of a hyperpolarisation system intersects the at least one secondary working volume so as to hold a sample to be hyperpolarised in the secondary working volume.Type: GrantFiled: May 9, 2006Date of Patent: April 20, 2010Assignee: Oxford Instruments Molecular Biotools LimitedInventors: Paul Geoffrey Noonan, Robert Andrew Slade
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Patent number: 7649355Abstract: A method of operating a DNP system comprising: a cryostat (1); a magnetic field generator (2) located in the cryostat for generating a magnetic field in a working volume; a microwave cavity (8) within which the working volume is located; and a waveguide (18) for supplying microwave power to the microwave cavity; the method comprising: a) locating a sample in the working volume and subjecting the sample to a magnetic field generated by the magnetic field generator; b) supplying liquid coolant to the working volume to cool the sample; c) irradiating the sample with microwave power so as to hyperpolarize nuclear spins in the sample; and d) warming the sample following the irradiation step by expelling liquid coolant from the working volume while leaving the sample in the working volume.Type: GrantFiled: February 24, 2006Date of Patent: January 19, 2010Assignee: Oxford Instruments Molecular Biotools LimitedInventors: Daniel Robert Strange, Robert Andrew Slade
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Patent number: 7646200Abstract: A coolant sub-assembly is provided for use in a DNP apparatus. The sub-assembly comprises a plurality of concentric jackets surrounding an inner bore tube having first and second opposed ends. The jackets are adapted to inhibit heat flow to the inner bore tube, a DNP working region being defined within the inner bore tube where a DNP process will be performed on a sample in the DNP working region. A coolant supply path extends adjacent an outer surface of the inner bore tube at the DNP working region in order to cool said outer surface, whereby a sample holder assembly can be inserted through the first end of the inner bore tube to bring a sample holder into the DNP working region and can be moved through the second end of the inner bore tube. An auxiliary coolant supply path supplies coolant to a sample, located in use in the sample holder at the DNP working region, through at least one aperture in the inner bore tube wall at the DNP working region.Type: GrantFiled: August 19, 2008Date of Patent: January 12, 2010Assignees: Oxford Instruments Molecular Biotools Limited, University of NottinghamInventors: Robert Andrew Slade, Martin Charles Townsend, Daniel Strange, Gary Stables, Walter Friedrich Kockenberger
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Patent number: 7639007Abstract: Apparatus for performing in-vitro DNP-NMR measurements on a sample comprises magnetic field generating apparatus (1a, 1b) located in a cryostat (2) and surrounding a bore defining respective NMR and DNP working regions (90, 92). A system for performing DNP on a suitably prepared sample in the DNP working region. A system for performing a NMR process on a sample in the NMR working region. A sample positioning mechanism (5) which can be inserted in the bore (3) to bring a sample in turn into each of the working regions. The magnetic field generating apparatus is suitably structured so that the magnetic field in the DNP working region has a homogeneity or profile suitable for performing DNP on the sample and the magnetic field in the NMR working region has a homogeneity or profile suitable for performing a NMR process on the sample.Type: GrantFiled: May 16, 2005Date of Patent: December 29, 2009Assignee: Oxford Instruments Superconductivity Ltd.Inventors: Graham Mark Hutton, Robert Andrew Slade, Francis John Brown
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Publication number: 20090306455Abstract: A method of providing magnetised particles at a location using particles which can be switched between magnetic and non-magnetic states by exposure to a suitable magnetic field. The method comprises conveying the particles in their non-magnetic state to the location; and then exposing the particles to the suitable magnetic field so that they switch to their magnetic state.Type: ApplicationFiled: June 14, 2006Publication date: December 10, 2009Inventors: Robert Andrew Slade, John Simon Owen Evans, David Parker, Russell Paul Cowburn, Michael Eaton
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Publication number: 20090134868Abstract: A magnet assembly for use in carrying out nuclear magnetic resonance experiments on a body or sample. The assembly comprises a set of superconducting coils (12) within a cryostat, located about a bore, and arranged to generate a substantially uniform magnetic field in a primary working volume (101) within the bore, and to generate a substantially uniform magnetic field in a secondary working volume (100) within the coil structure and separate from the bore. At least part of a hyperpolarisation system intersects the at least one secondary working volume (101) so as to hold a sample to be hyperpolarised in the secondary working volume.Type: ApplicationFiled: May 9, 2006Publication date: May 28, 2009Inventors: Paul Geoffrey Noonan, Robert Andrew Slade
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Publication number: 20090128147Abstract: An NMR inspection apparatus comprises a system for providing a dissolved, hyperpolarized sample and an NMR analysis system connected to the hyperpolarizing system are disclosed. The NMR analysis system includes a magnet for generating a substantially homogeneous magnetic field in a working volume suitable for carrying out NMR and a number of RF magnetic field generators located in the working volume. A non-electrically conducting conduit passes adjacent the RF magnetic field generators and is coupled to the hyperpolarizing system so as to convey a hyperpolarized sample past each RF magnetic field generator in sequence. A sample control system controls movement of a sample through the conduit. An NMR signal acquisition system controls the RF magnetic field generators to generate RF magnetic fields in accordance with a predetermined pulse sequence and detects the resulting NMR signals from the portions of the sample exposed to the RF magnetic fields.Type: ApplicationFiled: March 13, 2007Publication date: May 21, 2009Applicant: Ford Instruments Molecular Biotools LimitedInventor: Robert Andrew Slade
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Publication number: 20090085562Abstract: A method of operating a DNP system comprising: a cryostat (1); a magnetic field generator (2) located in the cryostat for generating a magnetic field in a working volume; a microwave cavity (8) within which the working volume is located; and a waveguide (18) for supplying microwave power to the microwave cavity; the method comprising: a) locating a sample in the working volume and subjecting the sample to a magnetic field generated by the magnetic field generator; b) supplying liquid coolant to the working volume to cool the sample; c) irradiating the sample with microwave power so as to hyperpolarize nuclear spins in the sample; and d) warming the sample following the irradiation step by expelling liquid coolant from the working volume while leaving the sample in the working volume.Type: ApplicationFiled: February 24, 2006Publication date: April 2, 2009Inventors: Daniel Robert Strange, Robert Andrew Slade
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Publication number: 20090051361Abstract: A coolant sub-assembly is provided for use in a DNP apparatus. The sub-assembly comprises a plurality of concentric jackets surrounding an inner bore tube having first and second opposed ends. The jackets are adapted to inhibit heat flow to the inner bore tube, a DNP working region being defined within the inner bore tube where a DNP process will be performed on a sample in the DNP working region. A coolant supply path extends adjacent an outer surface of the inner bore tube at the DNP working region in order to cool said outer surface, whereby a sample holder assembly can be inserted through the first end of the inner bore tube to bring a sample holder into the DNP working region and can be moved through the second end of the inner bore tube. An auxiliary coolant supply path supplies coolant to a sample, located in use in the sample holder at the DNP working region, through at least one aperture in the inner bore tube wall at the DNP working region.Type: ApplicationFiled: August 19, 2008Publication date: February 26, 2009Inventors: Robert Andrew Slade, Martin Charles Townsend, Daniel Strange, Gary Stables, Walter Friedrich Kockenberger
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Patent number: 7492154Abstract: A method of carrying out DNP on a sample with a molecular structure containing at least two J-coupled non-integer spin nuclear species, the method comprising hyperpolarizing the sample in a cooled, solid form while it is exposed to a homogeneous magnetic field of suitable strength; dissolving or melting the hyperpolarized sample; subjecting the sample to a polarization holding RF pulse sequence while the sample is exposed to a suitably homogeneous magnetic field of sufficient strength to ensure the spin's chemical shift is greater than the J-coupling, the pulse sequence causing the nuclear spin populations in the sample to be re-distributed between a plurality of energy levels in a non-equilibrium manner; and then, following a time less than the T1, relaxation time constant of the molecular species, causing the nuclear spin populations to transfer adiabatically to stable, equilibrium levels.Type: GrantFiled: November 29, 2005Date of Patent: February 17, 2009Inventors: Alun J Lucas, Robert Andrew Slade
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Patent number: 7479860Abstract: A magnetic field generating assembly comprising a set (A1-A3;B1-B3;C1-C3) of, typically substantially coaxial, coils substantially symmetrically arranged about a plane orthogonal to the axis. At least some of the coils carry working currents in the opposite sense to the other coils The arrangement of turns and working currents carried by the coils is such that a first working volume (10) with a substantially homogeneous magnetic field is generated within the envelope defined by the assembly, and two second working volumes (11) each with a substantially homogeneous magnetic field are generated outside the envelope, the homogeneity of each of the first and second working volumes being sufficient to perform a NMR experiment on a sample in the working volume.Type: GrantFiled: September 30, 2003Date of Patent: January 20, 2009Assignee: Oxford Instruments PLCInventors: Ian Leitch McDougall, Robert Andrew Slade, Peter Hanley, Robert Carter Hawkes
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Publication number: 20090007573Abstract: A cryostat assembly includes a thermal shield, a cooling system including a cold member maintained in use at a temperature lower than that of the thermal shield, a first adsorption pump assembly located at least partly within the thermal shield, a first switch thermally connecting the adsorption pump to the thermal shield, a second switch selectively, thermally connecting the adsorption pump to the cold member, and a first thermal link. The first adsorption pump includes a pumping chamber containing a working fluid and an adsorption pump in fluid communication with the pumping chamber. The first thermal link couples the pumping chamber to the cold member. During adsorption of the working fluid by the adsorption pump, a portion of the working fluid evaporates so as to cause the temperature within the pumping chamber to fall below the temperature of the cold member.Type: ApplicationFiled: September 27, 2005Publication date: January 8, 2009Applicant: OXFORD INSTRUMENTS SUPERCONDUCTIVITY LIMITEDInventors: Paul Geoffrey Noonan, Vladimir Mikheev, Robert Andrew Slade
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Publication number: 20080290869Abstract: Apparatus for performing in-vitro DNP-NMR measurements on a sample comprises magnetic field generating apparatus (1a, 1b) located in a cryostat (2) and surrounding a bore defining respective NMR and DNP working regions (90, 92). A system for performing DNP on a suitably prepared sample in the DNP working region. A system for performing a NMR process on a sample in the NMR working region. A sample positioning mechanism (5) which can be inserted in the bore (3) to bring a sample in turn into each of the working regions. The magnetic field generating apparatus is suitably structured so that the magnetic field in the DNP working region has a homogeneity or profile suitable for performing DNP on the sample and the magnetic field in the NMR working region has a homogeneity or profile suitable for performing a NMR process on the sample.Type: ApplicationFiled: May 16, 2005Publication date: November 27, 2008Applicant: OXFORD INSTRUMENTS SUPERCONDUCTIVITY LTDInventors: Graham Mark Hutton, Robert Andrew Slade, Francis John Brown
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Patent number: 7355499Abstract: A magnet assembly comprising first and second sets of coils (1, 2) for generating respective magnetic fields, wherein the coils are constructed and arranged such that under working conditions, a first homogeneous region (3) can be generated within the envelope defined by the magnet 10 assembly and a second homogeneous region (4) can be generated outside the envelope, the resultant magnetic field in each region being sufficiently homogeneous to enable a NMR process to be performed on an object in the region.Type: GrantFiled: September 30, 2003Date of Patent: April 8, 2008Assignee: Oxford Instruments PLCInventors: Ian Leitch McDougall, Robert Andrew Slade, Peter Hanley