Patents by Inventor Michael Crowley
Michael Crowley 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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Publication number: 20070268877Abstract: A scheme for facilitating accelerated network selection by a wireless user equipment (UE) device. In one exemplary embodiment, prior to performing a full band scan, the wireless UE device is operable to interrogate a list of networks with which the wireless UE device has registered at least once in a given period of time, wherein a network availability likelihood score may be associated with each of the list of networks. A particular network is selected from the list of networks based on its network availability likelihood score.Type: ApplicationFiled: May 18, 2007Publication date: November 22, 2007Inventors: Adrian Buckley, Michael Crowley
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Patent number: 7152817Abstract: An electrostatic spray device and a cartridge for an electrostatic spray device that reduce the occurrence of electrically induced emulsion product separation are disclosed. The device and/or the cartridge may reduce electrically induced emulsion product separation by providing a conductive high voltage shield substantially around the product reservoir. Alternatively, the device and/or the cartridge may prevent the product located at the charging location from being in fluid communication with the product reservoir so that the product that is being charged cannot flow back into the product reservoir. The device and/or cartridge may alternatively reduce electrically induced emulsion product separation by minimizing the volume of product between the charging location and the exit orifice of the nozzle.Type: GrantFiled: January 12, 2001Date of Patent: December 26, 2006Assignee: The Procter & Gamble CompanyInventors: David Edward Wilson, Bryan Michael Kadlubowski, Jeffrey Keith Leppla, Wataru Hirose, Yoshihiro Wakiyama, Takeshi Aoyama, Takeshi Mori, Toru Sumiyoshi, Joseph Michael Crowley
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Publication number: 20060251724Abstract: Thermoformed or hot melt extruded pharmaceutical compositions containing an active pharmaceutical ingredient, acrylic enteric polymer and plasticizer are disclosed. Methods of making the same as well as various pharmaceutical dosage forms are also disclosed. In preferred aspects, a thermoformable mixture is in a powder form and includes an active ingredient, plasticizer, acrylic polymer and optional excipients which enhance the performance of the extrudate after being incorporated into a dosage form.Type: ApplicationFiled: May 6, 2004Publication date: November 9, 2006Inventors: Thomas Farrell, Kurt Fegely, Christopher Young, Michael Crowley, James McGinity
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Patent number: 7084593Abstract: An electric power assist steering control system having an electric motor actuator and a motor driver circuit for generating and applying a motor current to the electric motor actuator. A current sensor is included for measuring the motor current from the motor driver circuit and generating a feedback signal. A torque sensor is included for sensing an applied steering torque and providing a torque command signal having a value indicative of the applied steering torque. A controller calculates a temperature of the electric temperature of the electric motor actuator by evaluating the motor current applied to the electric motor actuator. In the case that the calculated temperature of the electric motor actuator surpasses a predetermined temperature, the electric power assist steering control system reduces the amount of motor current applied to the electric motor actuator thereby reducing the temperature of the electric motor actuator.Type: GrantFiled: April 10, 2002Date of Patent: August 1, 2006Assignee: Visteon Global Technologies, Inc.Inventor: Colin Michael Crowley
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Patent number: 7056000Abstract: A text fixture (1) comprises apparatus (4) for verifying the color and brightness of light emitted from LEDs (5) of a printed circuit board (3). A base (6) of the fixture (1) supports the printed circuit board (3) during testing. A mounting panel (14) locates ends (15) of a plurality of optical fibers (10) adjacent the LEDs (5) on the printed circuit board (3), and ends (21) of ht optical fibers (10) are terminated in a terminating panel (20) adjacent an image sensing panel (11). The image sensing panel (11) comprises an array of individually addressable light and color sensitive pixels (25) onto which light from the optical fibers (10) is incident. An analysing circuit (12) scans the pixels (25) for determining the brightness values and the tristimulus values of the incident light, and a control circuit (9) compares the tristimulus values and brightness values with reference tristimulus and brightness values for verifying the color and brightness of the light emitted by the respective LEDs (5).Type: GrantFiled: April 27, 2001Date of Patent: June 6, 2006Assignee: Viveen LimitedInventors: Conleth Denis Hussey, Kenneth Peter Oakley, Michael Crowley, Eamonn O'Toole, Timothy Davern
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Patent number: 6996993Abstract: A pulse tube refrigerator system comprises a pulse tube refrigerator and a compressor coupled together via a high pressure line and a low pressure line. Cryogenic fluid is transferred to the PTR via the high pressure line and returned to the compressor via the low pressure line. The system further comprises an acoustic tuning device coupled to the low pressure line between a low pressure output from the PTr and a lower pressure input to the compressor, such that noise and vibration in the PTR system are reduced.Type: GrantFiled: August 14, 2003Date of Patent: February 14, 2006Assignee: Oxford Magnet Technology Ltd.Inventor: David Michael Crowley
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Publication number: 20050220865Abstract: An oral solid compress composition comprising a magnesium salt is provided. The composition provides a rapid dissolution of the magnesium salt, wherein not less than 75% of the magnesium salt dissolves within 45 minutes after placement in hydrochloric acid (0.1 N, 900 mL) as per USP Method <711>. In a particular embodiment, the magnesium salt is an inorganic salt such as MgO, Mg(OH)2, MgCl2, and others. The composition can be prepared by dry granulation, direct compression or another suitable process. The composition provides a substantially stable dissolution profile for the magnesium salt so that the dissolution profile changes only minimally even after an extended period of storage under pharmaceutically acceptable conditions when packaged in a sealed container-enclosure system. The solid composition may also exclude a cellulose-based composition. The compressed composition can be prepared and stored under anhydrous conditions.Type: ApplicationFiled: April 2, 2004Publication date: October 6, 2005Inventors: John Koleng, Michael Crowley
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Patent number: 6813891Abstract: A pulse tube refrigerator comprises a fixed pressure casing (3) containing cold parts and a removable pressure casing (2) containing serviceable parts. The fixed pressure casing (3) and the removable pressure casing (2) are coupled together via a joining member (1). During cooling operation the joining member (1) is arranged such that refrigerant fluid flows between the fixed and the removable casings. During servicing the joining member is arranged to cut off flow of refrigerant fluid between the fixed and removable casings, such that refrigerant in the fixed casing is trapped and parts in the removable casing are accessible for servicing. After servicing, substantially pure refrigerant fluid is pumped into the removable casing (2), the fixed and removable casings are re-joined and the joining member (1) is arranged such that refrigerant fluid flows between the casings again.Type: GrantFiled: December 10, 2002Date of Patent: November 9, 2004Assignee: Oxford Magnet Technology LimitedInventors: Roger Artindale Heron, Peter Derek Daniels, David Michael Crowley
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Publication number: 20040107705Abstract: A pulse tube refrigerator system comprises a pulse tube refrigerator (1) and a compressor (2) coupled together via a high pressure line (3) and a low pressure line (5), wherein cryogenic fluid is transferred to the PTR via the high pressure line and returned to the compressor via the low pressure line. The system further comprises an acoustic tuning device (7, 9) coupled to the low pressure line between a low pressure output (8) from the PTR and a low pressure input to the compressor, such that noise and vibration in the PTR system are reduced.Type: ApplicationFiled: August 14, 2003Publication date: June 10, 2004Inventor: David Michael Crowley
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Patent number: 6682004Abstract: The present invention is an electrostatic spraying device to electrostatically charge and dispense a product from a reservoir to a point of dispersal that includes a nozzle having an exit orifice and being disposed at the point of dispersal to disperse the product. A channel is included that permits the electrostatic charging of product. A positive displacement mechanism is used to move the product from the reservoir to the nozzle. A power source supplies an electrical charge. A portion of a high voltage electrode being disposed between the reservoir and the nozzle is used to electrostatically charge product within the channel at a charging location. A distance between the charging location and the nozzle exit orifice is governed by Vo/d<100,000, wherein Vo=an output voltage of said high voltage power supply and d=linear distance between the charging location and said nozzle exit orifice.Type: GrantFiled: January 12, 2001Date of Patent: January 27, 2004Assignee: The Procter & Gamble CompanyInventors: Bryan Michael Kadlubowski, David Edward Wilson, Jeffrey Keith Leppla, Wataru Hirose, Yoshihiro Wakiyama, Takeshi Aoyama, Takeshi Mori, Yoshito Komada, Toru Sumiyoshi, Joseph Michael Crowley
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Publication number: 20030200755Abstract: A pulse tube refrigerator comprises a fixed pressure casing (3) containing cold parts and a removable pressure casing (2) containing serviceable parts. The fixed pressure casing (3) and the removable pressure casing (2) are coupled together via a joining member (1). During cooling operation the joining member (1) is arranged such that refrigerant fluid flows between the fixed and the removable casings. During servicing the joining member is arranged to cut off flow of refrigerant fluid between the fixed and removable casings, such that refrigerant in the fixed casing is trapped and parts in the removable casing are accessible for servicing. After servicing, substantially pure refrigerant fluid is pumped into the removable casing (2), the fixed and removable casings are re-joined and the joining member (1) is arranged such that refrigerant fluid flows between the casings again.Type: ApplicationFiled: December 10, 2002Publication date: October 30, 2003Inventors: Roger Artindale Heron, Peter Derek Daniels, David Michael Crowley
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Publication number: 20030193305Abstract: An electric power assist steering control system having an electric motor actuator and a motor driver circuit for generating and applying a motor current to the electric motor actuator. A current sensor is included for measuring the motor current from the motor driver circuit and generating a feedback signal. A torque sensor is included for sensing an applied steering torque and providing a torque command signal having a value indicative of the applied steering torque. A controller calculates a temperature of the electric temperature of the electric motor actuator by evaluating the motor current applied to the electric motor actuator. In the case that the calculated temperature of the electric motor actuator surpasses a predetermined temperature, the electric power assist steering control system reduces the amount of motor current applied to the electric motor actuator thereby reducing the temperature of the electric motor actuator.Type: ApplicationFiled: April 10, 2002Publication date: October 16, 2003Inventor: Colin Michael Crowley
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Publication number: 20030161163Abstract: A test fixture (1) comprises apparatus (4) for verifying the colour and brightness of light emitted from LEDs (5) of a printed circuit board (3). A base (6) of the fixture (1) supports the printed circuit board (3) during testing. A mounting panel (14) locates ends (15) of a plurality of optical fibres (10) adjacent the LEDs (5) on the printed circuit board (3), and ends (21) of the optical fibres (10) are terminated in a terminating panel (20) adjacent an image sensing panel (11). The image sensing panel (11) comprises an array of individually addressable light and colour sensitive pixels (25) onto which light from the optical fibres (10) is incident. An analysing circuit (12) scans the pixels (25) for determining the brightness values and the tristimulus values of the incident light, and a control circuit (9) compares the tristimulus values and brightness values with reference tristimulus and brightness values for verifying the colour and brightness of the light emitted by the respective LEDs (5).Type: ApplicationFiled: March 21, 2003Publication date: August 28, 2003Inventors: Conleth Denis Hussey, Kenneth Peter Oakley, Michael Crowley, Eamonn O'Toole, Timothy Davern
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Patent number: 6336749Abstract: A method for making an optical fiber fusion joint between two dissimilar single mode optical fibers (10,40) where the fibers have different core sizes and/or different refractive index profiles due to different patterns of dopant. One fiber may be a standard step-index communication fiber with a 9 &mgr;m core diameter and a numerical aperture (NA) of about 0.1, and the second fiber may be a dispersion compensating fiber (DCF) with a multiple layer refractive index profile. The second fiber alternatively may have a smaller core and a higher NA, up to about 0.3. A diffused dopant region, with a gradual longitudinal variation in diffusion, is included adjacent to the splice. The diameter of the communications fiber core increases gradually within the diffusion region as the splice joint is approached along this fiber. The diffusion of the various dopants in the second fiber tend to cause its refractive index profile to converge optically to that of the diffused step index communication fiber.Type: GrantFiled: November 3, 1999Date of Patent: January 8, 2002Assignee: Viveen LimitedInventors: Eamonn O'Toole, Timothy Davern, Michael Crowley, Conleth Denis Hussey, Paul F. O'Sullivan, Kenneth Peter Oakley, Elaine O'Brien
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Publication number: 20010038047Abstract: An electrostatic spray device and a cartridge for an electrostatic spray device that reduce the occurrence of electrically induced emulsion product separation are disclosed. The device and/or the cartridge may reduce electrically induced emulsion product separation by providing a conductive high voltage shield substantially around the product reservoir. Alternatively, the device and/or the cartridge may prevent the product located at the charging location from being in fluid communication with the product reservoir so that the product that is being charged cannot flow back into the product reservoir. The device and/or cartridge may alternatively reduce electrically induced emulsion product separation by minimizing the volume of product between the charging location and the exit orifice of the nozzle.Type: ApplicationFiled: January 12, 2001Publication date: November 8, 2001Inventors: David Edward Wilson, Bryan Michael Kadlubowski, Jeffrey Keith Leppla, Wataru Hirose, Yoshihiro Wakiyama, Takeshi Aoyama, Takeshi Mori, Toru Sumiyoshi, Joseph Michael Crowley
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Publication number: 20010020652Abstract: An electrostatic spraying device which is configured and disposed to electrostatically charge and dispense a product from a supply to a point of dispersal. The electrostatic spraying device has a reservoir configured to contain the supply of product and a nozzle to disperse the product. The nozzle being disposed at the point of dispersal. The nozzle has an exit orifice. A channel is disposed between the reservoir and the nozzle, wherein the channel permits the electrostatic charging of the product upon the product moving within the channel. A positive displacement mechanism is used to move the product from the reservoir to the nozzle. A power source supplies an electrical charge. A high voltage power supply, high voltage contact, and high voltage electrode are used. A portion of the high voltage electrode being disposed between the reservoir and the nozzle is used to electrostatically charge the product within the channel at a charging location.Type: ApplicationFiled: January 12, 2001Publication date: September 13, 2001Inventors: Bryan Michael Kadlubowski, David Edward Wilson, Jeffrey Keith Leppla, Wataru Hirose, Yoshihiro Wakiyama, Takeshi Aoyama, Takeshi Mori, Yoshito Komada, Toru Sumiyoshi, Joseph Michael Crowley