Patents Represented by Attorney Eugene M. Cummings, P.C.
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Patent number: 7660088Abstract: An apparatus and method compensate for the sensitivity of at least one line current differential element of a first current differential relay providing differential protection for a transmission line of a power system during a single-phase pole-open condition. The apparatus includes a first delta filter configured to remove a first pre-fault current from a first fault current of the transmission line to derive a compensated first current phasor. The apparatus also includes a second delta filter configured to remove a second pre-fault current from a second fault current of the transmission line to derive a compensated second current phasor. The compensated first and second current phasors are provided to the at least one line current differential element to compensate the sensitivity of the at least one line current differential element.Type: GrantFiled: January 23, 2006Date of Patent: February 9, 2010Assignee: Schweitzer Engineering Laboratories, Inc.Inventors: Joseph B. Mooney, Gabriel Benmouyal
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Patent number: 7657952Abstract: Provided is a mat supplemental to an exercise mat including a cushion portion for assisting in execution and/or maintaining of a select body position (e.g., a stretch, yoga pose, or Pilates pose). The supplemental mat may include a strap detachable from the cushion portion. The strap may further assist in the execution and/or maintaining of a select body position (e.g., a stretch, yoga pose, or Pilates pose). The strap may further serve to secure the cushion portion to the traditional exercise mat, thereby causing the supplemental mat to also serve as a carrier for the traditional exercise mat.Type: GrantFiled: January 25, 2008Date of Patent: February 9, 2010Inventor: Gail J. Hutchison
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Patent number: 7641597Abstract: An exercise apparatus for the simultaneous lower body and upper body exercise of the user. The lower body exercise may include a treadmill, ski machine, stepper or the like, while the upper body exercise includes an Isokinetic grip mechanism. This grip enables the user to exercise at any variable resistance while maintaining a constant speed.Type: GrantFiled: April 9, 2009Date of Patent: January 5, 2010Inventor: David Schmidt
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Patent number: 7628344Abstract: A fuel injector assembly for an emissions-based EMD 710 locomotive dieselengine. The fuel injector assembly includes a needle slidably positioned within a bore of a valve body of the injector assembly, where fuel pressure introduced into a bore chamber causes the needle to open a spray tip. A spring mounted within the bore forces the needle to close the spray tip when the fuel is not being applied. The spring is a dead coil spring including inactive coils where at least portions of the coils at both ends of the spring are in intimate contact with each other so as to reduce spring wear during operation of the assembly. Because the dead coil spring has reduced wear, the VOP set point of the fuel injector assembly can be reduced, which reduces NOx emissions.Type: GrantFiled: September 27, 2005Date of Patent: December 8, 2009Assignee: Electro-Motive Diesel, Inc.Inventors: Budhadeb Mahakul, Brent J. Valesano, Gary L. Cowden, Mike Smith
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Patent number: 7630863Abstract: An apparatus, system and method in an electrical system using power system information or data associated therewith having a time component associated therewith sampled or obtained from the electrical system at a local and a remote location, wherein the local and remote data are time aligned and used to provide control, monitoring, metering, and/or automation to the electrical system. The local IED may be adapted to receive power system data from the remote IED, time align the local and remote synchronized power system data, and perform math operations on the local and remote power system data.Type: GrantFiled: September 18, 2007Date of Patent: December 8, 2009Assignee: Schweitzer Engineering Laboratories, Inc.Inventors: Gregary C. Zweigle, Armando Guzman-Casillas, Charles E. Petras, Ping Jiang
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Patent number: 7626794Abstract: A faulted circuit indicator comprises a processor, which dynamically determines a conductor de-energization level based on a monitored average current. This dynamically-determined de-energization level and/or monitored average current may be used to provide dynamic inrush restraint and/or dynamic backfeed restraint (reset restraint). If current within a power conductor falls below the determined de-energization level, the processor determines that the conductor has de-energized, and accordingly ignores high current spikes less than a predetermined duration that occur during re-energization.Type: GrantFiled: October 16, 2006Date of Patent: December 1, 2009Assignee: Schweitzer Engineering Laboratories, Inc.Inventors: Ryan W. Swartzendruber, Laurence V. Feight, Tyson J. Salewske
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Patent number: 7617408Abstract: A system and method provides accurate time generation in a computing device that includes a computing device clock and a microprocessor. The method includes determining a total system latency based on a delay incurred between issuance of a first command by the microprocessor and receipt of a first time-data signal by the microprocessor. The first time-data signal is representative of a master clock output of a master clock device at a first time. The method also includes deriving an accurate time from a second time-data signal. The second time-data signal is representative of the master clock output at a second time known by the microprocessor. The method further includes adjusting the accurate time based on a percentage of the total system latency to form a latency adjusted time, and applying the latency adjusted time to the computing device clock to synchronize the computing device clock to the master clock output.Type: GrantFiled: February 13, 2006Date of Patent: November 10, 2009Assignee: Schweitzer Engineering Labortories, Inc.Inventors: Nicholas R. Frazier, Daniel L. Ransom, Cody W. Tews
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Patent number: 7583771Abstract: Systems and methods providing resampling of a sampled data transmitted through a communication channel. Reliable resampling is provided even when original data samples are lost or reordered during transmission through the network. In one embodiment, a receiver associates each received data sample with a respective sampling time instant. The received data may include index values that associate the received data samples with respective sampling time instants. In other embodiments, the received data includes time stamps with encoded sampling time instant information. In another embodiment, arrival time instants are used to correlate the received data samples with their respective sampling time instants. The receiver then uses the sampling time information to select data samples corresponding to resampling time instants. If needed, the receiver uses interpolation to generate resampled data points corresponding to the resampling time instants.Type: GrantFiled: August 21, 2007Date of Patent: September 1, 2009Assignee: Schweitzer Engineering Laboratories, Inc.Inventors: Gregary C. Zweigle, Ian C. Ender
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Patent number: 7582986Abstract: Provided is a compensated inverse-time undervoltage load shedding system and method for use in an electrical power system. The compensated inverse-time undervoltage load shedding system includes a compensation element for determining a compensated value and an inverse-time undervoltage element operatively coupled to the compensation element and enabled based on the compensated value. When enabled, the inverse-time undervoltage element calculates a load shedding time delay value based on the compensated value, and determines a load shedding signal based on the load shedding time delay value. An associated load of the electrical power system is shed based on the load shedding signal. The compensation element may determine the compensated value using a voltage magnitude, a rate-of-change of power system voltage over time, a weighted rate-of-change of power system voltage over time, a current magnitude, a weighted current magnitude, and an impedance phasor value, to name a few.Type: GrantFiled: October 8, 2004Date of Patent: September 1, 2009Assignee: Schweitzer Engineering Laboratories, Inc.Inventors: Ralph W Folkers, Jeffrey B Roberts, Edmund O Schweitzer, III, Armando Guzman-Casillas, Gabriel Benmouyal
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Patent number: 7574570Abstract: A billing process is disclosed for a information dispersal system or digital data storage system. In one embodiment of the invention, the original data to be stored is separated into a number of data “slices” or shares in such a manner that the data in each subset is less usable or less recognizable or completely unusable or completely unrecognizable by itself except when combined with some or all of the other data subsets. These data subsets are stored on separate digital data storage devices as a way of increasing privacy and security. As dispersed file shares are being stored or removed from a grid of distributed storage locations, a set of metadata tables are created, separate from the dispersed file share storage, to maintain information about the original data size of each block, file or set of file shares dispersed on the grid.Type: GrantFiled: April 13, 2006Date of Patent: August 11, 2009Inventors: S. Christopher Gladwin, Matthew M. England, Zachary J. Mark, Vance T. Thornton, Joshua J. Mullin, Sejal Kumarbhai Modi
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Patent number: 7574579Abstract: Described is an information dispersal system in which original data to be stored is separated into a number of data “slices” in such a manner that the data in each subset is less usable or less recognizable or completely unusable or completely unrecognizable by itself except when combined with some or all of the other data subsets. These data subsets are stored on separate storage devices as a way of increasing privacy and security. A metadata management system stores and indexes user files across all of the storage nodes. The metadata management system stores metadata for dispersed data where: the dispersed data is in several pieces; and the metadata is in a separate dataspace from the dispersed data.Type: GrantFiled: April 13, 2006Date of Patent: August 11, 2009Assignee: Cleversafe, Inc.Inventors: S. Christopher Gladwin, Matthew M. England, Dustin M. Hendrickson, Zachary J. Mark, Vance T. Thornton, Jason K. Resch, Dhanvi Gopala Krishna Kapila Lakshmana Harsha
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Patent number: 7570469Abstract: A dynamically configurable relay element configured to protect an electrical system, including a dynamically calculated relay operating quantity, a dynamically calculated relay pickup setting, a dynamically calculated time dial, a plurality of dynamically calculated variables that define a characteristic of the dynamically configurable relay element, and a dynamically calculated operating time, the dynamically calculated operating time based on the dynamically calculated relay operating quantity, the dynamically calculated relay pickup setting, the dynamically calculated time dial and the plurality of dynamically calculated variables. The relay element may be an inverse-time overcurrent element, an instantaneous overcurrent element, an adaptive pickup overcurrent element, and inverse-time overvoltage element, a voltage restrained overcurrent element, and an inverse-time undervoltage element.Type: GrantFiled: June 23, 2006Date of Patent: August 4, 2009Assignee: Schweitzer Engineering Laboratories, Inc.Inventors: Armando Guzman-Casillas, Luther S. Anderson
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Patent number: 7557655Abstract: An accurate linear equivalent of an analog signal may be produced across an isolation barrier by driving a primary transformer winding with a drive amplifier and compensation amplifier, where the compensation operational amplifier amplifies a difference between a signal produced on a sense winding of the transformer and a combination of the input analog signal and output of the drive amplifier. The system may be stabilized by a lead-lag network between the sense winding, input signal, and operational amplifier. The transformer may comprise an isolation barrier to isolate the input analog signal from a signal winding. The primary winding of the transformer, driven by the operational amplifier and driver amplifier circuit, may produce a linear equivalent of the input analog signal across the isolation barrier on a signal winding of the transformer.Type: GrantFiled: November 5, 2007Date of Patent: July 7, 2009Assignee: Schweitzer Engineering Laboratories, Inc.Inventor: Timothy M. Minteer
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Patent number: 7549556Abstract: According to the invention a drinking vessel (10) comprises a generally cylindrical container (11) adapted to contain liquid and a generally cylindrical lid (12) adapted to close the container. The lid comprises a generally cylindrical outer member (20), a generally cylindrical inner member (22) located within the outer member so as to define a generally cylindrical aperture (50) between the outer surface of the inner member and the inner surface of the outer member, and a generally cylindrical sealing element (21) located in the aperture. The sealing element normally forms a seal between the outer surface of the inner member and the inner surface of the outer member but is deformable by suction at the end of the aperture remote from the container so as to cause liquid within the container to flow, from the end of the aperture adjacent to the container, out through the aperture under the action of the suction.Type: GrantFiled: July 19, 2004Date of Patent: June 23, 2009Assignee: 0Z10 LimitedInventor: Austen Charles Miller
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Patent number: 7545138Abstract: A current measurement device using a Rogowski coil having a generally toroidally shaped core with flattened faces, a first winding in one direction, a second winding forming a return loop, and a temperature compensation and scaling network coupled to the coil. The core has concentric cavities and a rough surface to restrain movement of the coil winding. A Faraday shield is wrapped over the coil. One shield is “serpentine,” having staggered (offset) lateral extensions from a central region. An alternate shield has a generally circular central region with extensions in generally radial directions. The shield is formed of three layers comprising a non-ferromagnetic metal central layer surrounded by insulative layers. At an end tab of the shield, the metal layer is exposed for connection to a ground lug or other connector. An insulative housing envelops the coil and electrical network. An output wire terminates in an industrial connector. A resistive network may be implemented with the current measurement device.Type: GrantFiled: July 6, 2006Date of Patent: June 9, 2009Assignee: Schweitzer Engineering Laboratories, Inc.Inventors: Donovan E. Wilkerson, Veselin Skendzic, James R Kesler
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Patent number: 7507043Abstract: An ergonomic keyboard having a mount and a plurality of keys arranged in a plurality of unbroken adjacent rows is provided. Each row is comprised of an arcuate portion, a left portion, and a right portion. The left and right portions extend tangentially from the left and right sides of the arcuate portion, respectively. The arcuate portion, of each row is convex to the user side of the keyboard, and at least two keys in each arcuate portion are elongated. Alphanumeric indicia on the keys can be arranged in the QWERTY pattern.Type: GrantFiled: November 8, 2004Date of Patent: March 24, 2009Assignee: MetamorfyxInventors: Herman Camacho, Robert Granadino
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Patent number: 7504806Abstract: Provided are methods for controlling operation of a voltage regulator of a single-phase of a three-phase power system to regulate a measured voltage. One of the methods includes recording a first elapsed time between detecting a first excursion of the measured voltage from an in-band area to an out-of-band area, and a first return of the measured voltage to the in-band area. The method also includes recording a second elapsed time period (dip period) between detecting the first return and a second excursion of the measured voltage from the in-band area to an out-of-band area. If the second elapsed time period is less than a predetermined dip time period, causing a tap position change of the voltage regulator upon expiration of a countdown period initiated upon detecting the first excursion, thereby adjusting the measured voltage to the in-band area while allowing a voltage drop of limited length.Type: GrantFiled: March 6, 2006Date of Patent: March 17, 2009Assignee: Schweitzer Engineering Laboratories, Inc.Inventor: Casper A. Labuschagne
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Patent number: D595600Type: GrantFiled: May 5, 2008Date of Patent: July 7, 2009Assignee: Klein Tools, Inc.Inventors: Vincent Kendzierski, Kingston Wong
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Patent number: D597376Type: GrantFiled: August 10, 2007Date of Patent: August 4, 2009Inventor: Gavin Reay
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Patent number: D599178Type: GrantFiled: July 24, 2008Date of Patent: September 1, 2009Inventor: Gavin Reay