Patents Represented by Attorney Peter Vogel
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Patent number: 7339376Abstract: Systems, methods and apparatus are provided through which heat produced in the patient examination space by the power used to create electromagnetic fields in an MRI/MRS system is significantly reduced by coolant carried by one of two split connected concentric coil layers of one of two of the primary gradient coils used to alter the main magnetic field. The coil carrying the coolant is made of copper tubing. The second primary gradient coil is placed between the layers of the split primary gradient coil. Adjusting the number of turns in each layer of the split primary gradient coil adjusts the heat generated. The inductances and resistances of the two primary gradient coils are balanced by adjusting the gain of the coils.Type: GrantFiled: April 9, 2006Date of Patent: March 4, 2008Assignee: General Electric CompanyInventor: Qin Liu
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Patent number: 7330529Abstract: A mammography scanning system having a detector includes an arc-shaped support system having a number of X-ray emitters coupled thereto. The X-ray emitters generate a plurality of X-ray fluxes towards a common focus at varying angles with respect to the focus. Also, each of the X-ray emitters is collimated to view an entire detector field of view.Type: GrantFiled: April 6, 2004Date of Patent: February 12, 2008Assignee: General Electric CompanyInventors: Jeffrey Alan Kautzer, Christopher David Unger
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Patent number: 7313224Abstract: Systems and methods for providing independent exposure detection, X-ray spectrum and timing compensation, and providing an exposure termination signal to an X-ray system. The system incorporates an interface for receiving exposure characteristic data such as kVp, spectral filter, and focal spot. The system through a programmed controller determines one or more control parameters based on the received exposure characteristic data and generates a control signal for controlling an X-ray source.Type: GrantFiled: June 22, 2006Date of Patent: December 25, 2007Assignee: General Electric Co.Inventor: Rowland F. Saunders
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Patent number: 7310410Abstract: A single-leaf X-ray collimator comprises at least one collimating leaf member having at least one collimating aperture. The collimating leaf member is adapted to be configured to rotate about at least one of a vertical or horizontal plane. The collimator provides elliptical collimation and hence improved dosage efficiency.Type: GrantFiled: July 28, 2004Date of Patent: December 18, 2007Assignee: General Electric Co.Inventors: Ratanjit Singh Sohal, Piyush Vijay Deshpande
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Patent number: 7280638Abstract: An X-ray tube housing with integrated cooling passages in the walls of the X-ray tube housing, through which a liquid or gas coolant is circulated and the heat is transferred from the X-ray tube housing to an external cooler. The integrated cooling passages are created around the perimeter of the X-ray tube housing as the X-ray tube housing is formed. For a rotating anode X-ray tube using an oil coolant, the path of heat transfer is from the anode to the glass insert and oil by the means of radiation. The oil that is in contact with the glass insert conducts heat away form the insert to the X-ray tube housing which is then cooled by the integrated cooling passages located within the X-ray tube housing through which fluid is passed to an external fluid cooling system.Type: GrantFiled: May 9, 2006Date of Patent: October 9, 2007Assignee: General ElectricInventors: Gregory Alan Weaver, Lonnie B. Weston, David Ellis Barker
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Patent number: 7276997Abstract: An apparatus for magnetic resonance imaging having a magnetic assembly with a main magnet, a shielding system positioned outside the main magnet, and a first and second space for positioning the imaged and non-imaged extremity. Various apparatus with distinct vessels and casings are described with a magnetic assembly and ferromagnetic shielding systems. In yet a further aspect, an apparatus for resonance imaging having additional shim elements for compensating effects from non-axisymmetrical shape of ferromagnetic shielding casing is disclosed. Additionally, an apparatus for magnetic resonance imaging is described having a dedicated space outside the imaging region and where the dedicated space has support element for resting non-image extremity as part of the structure of the imager.Type: GrantFiled: January 29, 2005Date of Patent: October 2, 2007Assignee: General ElectricInventors: Yuri Lvovsky, Rory John Warner
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Patent number: 7272207Abstract: Systems, processes and apparatus are described through which non-destructive imaging is achieved, including a process for variable binning of detector elements. The process includes accepting input data indicative of image quality goals and descriptors of an imaging task, as well as parameters characterizing a test subject, relative to non-destructive imaging of an internal portion of the test subject and determining when the non-destructive imaging system is capable of achieving the image quality goals using binning of more than four pixels.Type: GrantFiled: March 24, 2006Date of Patent: September 18, 2007Inventors: Richard Aufrichtig, John Robert Lamberty, Paul Richard Granfors
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Patent number: 7261465Abstract: Systems, methods and apparatus are provided through which the presence of a portable detector in a parking mechanism of mobile digital radiography system is used to change the operating mode of the portable detector and a mobile X-Ray system. An existing mobile digital X-Ray imaging system may be retrofitted with parking sensor mechanism for determining the proximity of the portable detector to the mobile digital radiography system. Also provided is a method for controlling a mobile digital imaging system having a mobile X-Ray base and having a parking mechanism for holding a detachable detector. Upon detecting the presence of the detachable detector in the parking mechanism a control signal is generated to alter the speed of the mobile unit and the power consumption status of the detachable detector.Type: GrantFiled: December 31, 2005Date of Patent: August 28, 2007Inventors: Jonathan M. Butzine, Jon C. Omernick, Sabih Q Zaman
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Patent number: 7239685Abstract: Systems and methods are provided for managing power consumption of a medical imaging detector by the use of triggering signals, environmental condition data, and/or determination of a variable time interval triggering event that is unique for each power consumption state. Systems and methods are provided for managing power and temperature of a device, after receiving a request for a function to be performed by the device determining an “on” trigger component, an “off” trigger component, associated circuits for performing the received function, providing power to the associated circuits upon the occurrence of the “on” trigger component, and removing power to the associated circuits upon the occurrence of the “off” trigger component. Further, an instruction is described for determining and displaying a variable time interval that is indicative of a time to change from one state to a desired state.Type: GrantFiled: March 22, 2004Date of Patent: July 3, 2007Inventors: Scott W. Petrick, Donald F Langler, Paul R. Granfors, Ken S. Kump, Aaron A. Haen, Jibril Odogba, Jason R. Ertel, David C. Neumann, John R. Lamberty, Ping Xue, Habib Vafi
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Patent number: 7236571Abstract: An X-Ray tube is provided. The X-Ray tube includes a frame structure surrounding at least a portion of an electron beam source and an electron beam target. The frame structure has a cooling system integrated therein. The cooling system includes at least one air/fin layer; and a sub-cooled working fluid in thermal contact with the at least one air/fin layer, the sub-cooled working fluid being adapted to undergo a phase change in response to heat introduced to the frame structure by one or more of the electron beam source and the electron beam target, wherein the phase change facilitates transfer of the heat to the at least one air/fin layer.Type: GrantFiled: June 22, 2006Date of Patent: June 26, 2007Assignee: General ElectricInventors: Charles B. Kendall, Carey Shawn Rogers
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Patent number: 7192031Abstract: An field emitter array system (10) includes a housing (50). An emitter array (80) generates an electron beam and has multiple emitter elements (81) that are disposed within the housing (50). Each of the emitter elements has multiple activation connections (92).Type: GrantFiled: February 5, 2004Date of Patent: March 20, 2007Assignee: General Electric CompanyInventors: Bruce M. Dunham, Colin R. Wilson, John Scott Price
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Patent number: 7092558Abstract: A method of automatically optimizing medical three-dimensional visualizations is providing, including isolating a plurality of anatomical structures within the medical three-dimensional visualization (40), calculating the number of ray intersects, that intersect more than one of the plurality of anatomical structures, for a plurality of casting angles (42), selecting an optimum casting angle that minimizes said ray intersects from one of said plurality casting angles (44), and displaying the optimized medical three-dimensional visualization from said optimized casting angle (48).Type: GrantFiled: August 14, 2002Date of Patent: August 15, 2006Assignee: General Electric CompanyInventor: Jiang Hsieh
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Patent number: 7076028Abstract: A cooling system to cool the x-ray tube of a CT imaging system. The heat exchanger has a curved sector shape which provides a larger surface area for heat dissipation within the cover of the gantry. The axis of the cooling fans is preferably parallel to the rotational axis of the gantry.Type: GrantFiled: August 10, 2005Date of Patent: July 11, 2006Assignee: GE Medical Systems Global Technology CompanyInventor: Charles B. Kendall
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Patent number: 7072445Abstract: A heat exchanger, together with one or more associated fans, is positioned on the rotating gantry frame in order to cool the x-ray tube of a CT imaging system. An air deflector is positioned on or adjacent to the heat exchanger in order to prevent recirculatoin of heated air in the ganty.Type: GrantFiled: May 30, 2003Date of Patent: July 4, 2006Assignee: General Electric CompanyInventor: Charles B. Kendall
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Patent number: 7056017Abstract: A cooling system for an imaging system includes a mounting plate having a first side and an opposing second side. The mounting plate further defines at least one opening. At least one heat conductor extends through the opening and through at least a portion of a dielectric fluid reservoir defined adjacent the second side of the mounting plate and adapted to enclose an X-Ray source. A heat sink is coupled to the first side of the mounting plate and receives at least a portion of the heat conductor.Type: GrantFiled: March 12, 2004Date of Patent: June 6, 2006Assignee: GE Medical Systems Global Technology Company, LLCInventors: Premjit J. Daniel, Balasubramanian Kandankumarath
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Patent number: 7056016Abstract: An x-ray generating assembly is provided comprising an x-ray source assembly mounted to a mounting element. The assembly further includes a support assembly comprising a motor element and a gear assembly in communication with the motor element. An output shaft is in communication with the gear assembly such that the output shaft rotates in response to the motor element. The mounting element is positioned around the output shaft. An electromechanical lock is engaged to the mounting element such that the electromechanical lock rotates in concert with the mounting element. The electromechanical lock has an engaged condition and a disengaged condition. The electromechanical lock engages the mounting element when the electromechanical lock is in the engaged condition such that the mounting element rotates with the output shaft. The mounting element is free to rotate when the electromechanical lock is in the disengaged condition.Type: GrantFiled: December 23, 2003Date of Patent: June 6, 2006Assignee: General Electric CompanyInventors: Jonathan C. Boomgaarden, Andrew S. Argersinger
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Patent number: 6947524Abstract: An x-ray tube target assembly 16 provided. The target assembly 16 includes a target plate element 18 having an impact surface 24, a target rear surface 30, an inner target bore 22, and an outer target circumference 38. The target plate element 18 defines a target plate depth 32 between the impact surface 24 and the target rear surface 30. The target rear surface 30 is formed such that the target plate depth 32 tapers from an increased target plate depth 34 at the inner target bore to a decreased target plate depth 36 at the outer target circumference 38. The target assembly 16 further includes a graphite base element 28 having a base upper surface 42 and a base rear surface 44. The base upper surface 42 is formed to mate with the target rear surface 30.Type: GrantFiled: May 2, 2003Date of Patent: September 20, 2005Assignee: GE Medical Systems Global Technology Company, LLCInventors: Gregory Alan Steinlage, Liqin Wang
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Patent number: 6925152Abstract: An x-ray tube target assembly 16 is provided. The assembly 16 includes a target disc element 18 having a target bore 22. A target shaft 20 transmits rotational drive to the target disc element 18. The target shaft 20 includes a plurality of axial adjustment slots 30 formed in an upper portion. The plurality of axial adjustment slots 30 are positioned around the target shaft 20 to form a plurality of partial circumferential ribs 36. The plurality of partial circumferential ribs 36 are brazed to the target bore 22.Type: GrantFiled: May 13, 2003Date of Patent: August 2, 2005Assignee: GE Medical Systems Global Technology Co., LLCInventors: Gregory Alan Steinlage, Liqin Wang
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Patent number: 6741671Abstract: An imaging system includes an x-ray source adapted to generate an x-ray flux. The system further includes an array of analogic computer modules, each of which contains an array of detector elements arranged to form “slices” as in a CT scanner. The analogic computer modules then process the signals from the detector elements.Type: GrantFiled: April 30, 2002Date of Patent: May 25, 2004Assignee: GE Medical Systems Global Technology Company LLCInventors: Bruce Matthew Dunham, John Scott Price, Carey S. Rogers
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Patent number: 6521886Abstract: Automated measurement of changes in detective quantum efficiency (DQE) within an x-ray detector. The calculation of relative DQE changes is limited to the measurement of two quantities, namely MTF(f) and NPS(f). The measurement of MTF is obtained using an image quality phantom technique. The measurement of NPS includes the use of a flat field phantom, and data can be obtained during system calibration. Detector degradation and potential field replacement, are determined by monitoring the ratio of DQE as a function of time.Type: GrantFiled: December 29, 2000Date of Patent: February 18, 2003Assignee: GE Medical Systems Global Technology Company, LLCInventors: Richard Aufrichtig, Paul R. Granfors