Patents Represented by Attorney Plevy & Howard, PC
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Patent number: 7362266Abstract: A method for calibrating a phased array antenna comprises performing initial measurements of array antenna elements to ensure that calibration measurements are within the linear dynamic range of receive elements contained within the array. The method includes deriving calibration coefficients from a direct measurement of a forced out of phase condition and detection of deep nulls through adjustment of amplitude and phase settings over a range of frequencies of interest.Type: GrantFiled: December 7, 2004Date of Patent: April 22, 2008Assignee: Lockheed Martin CorporationInventor: Donald L. Collinson
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Patent number: 7331241Abstract: A low cost sensor assembly for measuring oxygen pressures contains a transistor header. The transistor header has terminal pins extending therefrom. The transistor header co-acts with a first circuit insulator board. The first circuit board has deposited thereon four hand mirror shaped contact areas each one associated with one of the terminal pins of the transistor header. The top portion of each contact areas has an aperture with the extending arm of the area directed towards the center of the board. The board is epoxied to the transistor header with the terminal pins of the header extending into the apertures of the contact board. A second contact board is then epoxied to the first contact board. The second contact board has a series of four apertures located at the center. Each of the apertures of the second board contacts the handle portion of the mirror patterns of the first board.Type: GrantFiled: August 22, 2006Date of Patent: February 19, 2008Assignee: Kulite Semiconductor Products, Inc.Inventors: Anthony D. Kurtz, Scott Goodman
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Patent number: 7317313Abstract: A magnetic encoder apparatus has a housing that includes a base portion and a cover plate portion. The housing also has a magnet that is contained in the base portion of the housing, a sensor chip having a major surface located adjacent to the magnet, and an alignment spacer having a first side and a second side. The first side of the alignment spacer has an opening through to the second side of the alignment spacer, and the second side fits into the base portion of the housing. The opening of the alignment spacer encloses the sensor chip.Type: GrantFiled: April 15, 2003Date of Patent: January 8, 2008Assignee: Measurement Specialties, Inc.Inventors: Rick Carlson, Rick Moeller
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Patent number: 7312096Abstract: There is disclosed a nanotube sensor which essentially employs a straight or twisted nanotube deposited on a supporting surface, such as silicon, silicon dioxide and some other semiconductor or metal material. The nanotube is basically a graphite device which is now subjected to stress causing the electrical characteristics of the nanotube to change according to stress. The nanotube is then provided in a circuit, such as a Wheatstone Bridge or other circuit, and the circuit will produce an output signal proportional to the change in electrical characteristics of the nanotube according to the applied force.Type: GrantFiled: April 13, 2006Date of Patent: December 25, 2007Assignee: Kulite Semiconductor Products, Inc.Inventor: Anthony D. Kurtz
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Patent number: 7057247Abstract: There is disclosed a combined absolute differential pressure transducer which consists of two sensors made from the same wafer silicon and selected to be adjacent to each other on the wafer. Since the same pressure is applied to the boss side of both sensors and a second pressure is applied to the opposite side of the differential sensor, deflection and the stress of the second sensor is determined by the pressure difference across the deflecting portion of the sensor. To obtain the same stresses in the thin section of each sensor, the overall active area of each sensor is different. For the same thickness read, the absolute value of P2?P1 where P2 is the pressure applied to the front side of the two sensors and P1 is the pressure applied to the differential sensor through the metal tube is less than P2 to obtain the same stress in each sensor a great active area in the differential sensor is required.Type: GrantFiled: December 12, 2001Date of Patent: June 6, 2006Inventors: Anthony D. Kurtz, Alexander A. Ned
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Patent number: 6850201Abstract: An azimuth drive for a radar array comprises at least one circular track mounted to a wheel on which the radar array is mounted. A motor is coupled to the at least one circular track and capable of moving along the track in the tangential direction, to relocate the center of mass of the wheel on which the radar array is mounted.Type: GrantFiled: April 10, 2002Date of Patent: February 1, 2005Inventor: Byron W. Tietjen
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Patent number: 6813956Abstract: A stop member is secured to a piezoresistive semiconductor bossed diaphragm at the peripheral area, and includes a first and second slotted apertures in communication with the central active area, the first and second slotted apertures correspond in location with opposing sides of a central boss. The stop member includes a stop cavity located between the first slotted aperture and the second slotted aperture, and the stop cavity overlies the central boss and is separated therefrom to enable the diaphragm to deflect when a force is applied and to enable the central boss to impinge on the surface of the stop cavity when an excessive force is applied. The first and second slotted apertures permit another force to be applied to the active region of the diaphragm in a direction opposite to the stopped direction. A second stop member is secured to the diaphragm to provide stopping in either direction.Type: GrantFiled: April 1, 2003Date of Patent: November 9, 2004Assignee: Kulite Semiconductor Products, Inc.Inventors: Anthony D. Kurtz, Alexander A. Ned
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Patent number: 6811912Abstract: A solid state fuel cell is fabricated from three substructures. There is a porous anode made from n+ silicon which is surrounded by a non-porous ring. The pore size of the anode material is sufficiently large to allow hydrogen gas to flow through and is of a sufficiently high conductivity to easily permit current flow of electrons. One side of the anode has enlarged pores and a layer of titanium and platinum is sputtered or otherwise deposited on the surface with the enlarged pores to produce a coated surface. A cathode is made in a similar manner and is fabricated as the anode. There is a center electrolytic section made from a low conductivity silicon or silicon carbide. The center electrolytic section has the coated side of the anode secured to one side and has the coated side of the cathode secured to the other side. The other or un-coated face of both the anode and the cathode has an electrical contact secured thereto to permit electrons to leave the anode and to reenter the cathode.Type: GrantFiled: February 28, 2002Date of Patent: November 2, 2004Assignee: Kulite Semiconductor Products, Inc.Inventor: Anthony D. Kurtz
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Patent number: 6812904Abstract: A radar antenna system comprises a wheel, cone or frustum having an axis. The wheel, cone or frustum has a circumferential portion adapted to engage at least one path disposed on a platform for revolving the radar array about the platform. A radar array is mounted on the wheel, cone or frustum, with the axis normal to a face of the radar array. The wheel, cone or frustum rotates about the platform as the radar array revolves around the platform during operation.Type: GrantFiled: April 10, 2002Date of Patent: November 2, 2004Assignee: Lockheed Martin CorporationInventor: Byron W. Tietjen
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Patent number: 6800987Abstract: A protective cover or grid for an ultrasound transducer comprises a series of vertically spaced members separated from one another by a pre-determined distance, each member being of substantially uniform width and arranged in a cylindrical shape. The protection grid includes a cavity for receiving a cylindrical transducer. The protection grid operates as both a physical protection mechanism for protecting the cylindrical transducer housed therein as well as operating as an impedance matching device.Type: GrantFiled: January 22, 2003Date of Patent: October 5, 2004Assignee: Measurement Specialties, Inc.Inventor: Minoru Toda
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Patent number: 6801156Abstract: A monopulse radar system generates elevation and azimuth difference monopulse estimates of the location of targets in each range cell, where the target may be either a single or plural target, each of which is made up of multiple scattering sources. Each azimuth-elevation estimate is based on a transmitted pulse or burst at a given frequency, different from other frequencies in a set of pulses or bursts. A test statistic is generated for each set. The statistic relates to the shape in an azimuth-elevation plane of the cluster of estimates. The test statistic is compared with a threshold to decide whether a single target or plural targets exist in the range cell.Type: GrantFiled: July 25, 2003Date of Patent: October 5, 2004Assignee: Lockheed Martin CorporationInventor: Richard Wasiewicz