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| 20090283924 | Method for post-injection in mold lamination with an adhesively coated functionalized film - A method for laminating a functional film on to a plastic injection molded lens. An outer layer of the film is selected to perform an HMA-type function when subjected to the heat and pressure of the mold. After forming the lens, the mold is open and the film is loaded in to the empty insert. The residual heat and pressure bonds the film via the HMA to the lens, in a press lamination process. A functionally enhanced lens having a film intimately laminated on to one side. | 11-19-2009 |
| 20100110567 | BI-LAYER ADHESIVE FOR LENS LAMINATION - A method for laminating a film on to an optical article and a bi-layer adhesive for use in the method. The bi-layer adhesive includes a latex adhesive layer and an HMA layer sequentially disposed on the film and dried to form a solid layer of uniform thinness throughout to provide optical quality. Various types of films may be employed to provide an optical function. Following optional pre-treatment steps, the adhesives are coated on to the film. An optical hot press technique is used to deliver heat and pressure over a short period of time to form a functionally-enhanced optical article with high adhesive strength. | 05-06-2010 |
| 20110242657 | BI-LAYER ADHESIVE FOR LENS LAMINATION - A method for laminating a film on to an optical article and a bi-layer adhesive for use in the method. The bi-layer adhesive includes a latex adhesive layer or a specific silane adhesive and an HMA layer sequentially disposed on the film and dried to form a solid layer of uniform thinness throughout to provide optical quality. Various types of films may be employed to provide an optical function. Following optional pre-treatment steps, the adhesives are coated on to the film. An optical hot press technique is used to deliver heat and pressure over a short period of time to form a functionally-enhanced optical article with high adhesive strength. | 10-06-2011 |
| 20120236255 | ADHESIVE SYSTEM FOR A LAMINATED LENS AND METHOD FOR APPLYING SAME - A method for laminating a functional film on to an optical base element and a tri-layer adhesive system for use in the method. The tri-layer adhesive includes a first latex adhesive layer disposed on the functional film and a second latex adhesive layer disposed on the optical base element. An HMA layer is disposed in between the latex layers to form a tri-layer adhesive to permanently retain the functionalized film on the optical base element. The method includes first coating a latex adhesive on the functional film and second coating a latex adhesive on the optical base element. An HMA is then coated on to one of the dried latex adhesive layers. The film is hot pressed on to the optical base element with the HMA sandwiched in between the latex layers to form a laminated optical device. | 09-20-2012 |
| 20130208239 | PROCESS FOR MANUFACTURING A POLARIZED OPTICAL ARTICLE AND POLARIZED OPTICAL ARTICLE - A process for manufacturing a polarized optical device and the resulting optical device. In the process, an optical device is coated with an adhesive. A PVA polarizing film is moistened to render it formable. The PVA polarizing film is laminated on to the adhesive coating so that the PVA polarizing film forms to the shape of the optical device. The film, adhesive, device ensemble is then heat annealed. The PVA polarizing film is then contacted with a boric acid solution to crosslink the PVA so that it can withstand use and further processing. A polarized optical device includes an adhesive disposed between an optical base element and a PVA polarizing film. | 08-15-2013 |
| 20130278892 | METHOD OF MAKING OPHTHALMIC LENSES WITH A STRUCTURED SURFACE - A method for fabricating a Fresnel lens or other lens having a structured surface such as refractive and/or diffractive bi-focal or other multi-focal lenses includes press-coating the structured surface with a low or very low refractive index coating material. The coating is sufficient thick to adequately cover the structured surface so that a smooth coating surface with good optical properties is obtained, for example in the case of a Fresnel structure a thickness greater than 1.5 times and less than 5 times the Fresnel structure height, and is cured in situ. A film, e.g., of PET, PC or PU or a film stack, e.g. a TAC/PVA/TAC film stack is prepared and a heat melting adhesive is applied to the side of the film or film stack to be contacted with the coated structured surface of the lens blank. The film or film stack is then laminated to the cured coating. | 10-24-2013 |
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| 20110295082 | Transformation of Medical Status Data into Executable Programs - A transformer system receives medical status data generated by a monitoring device. The medical status data represents one or more physiological characteristics of a patient. In response to receiving the medical status data, the transformer system applies a transformation to the medical status data. A script file results from the transformation of the medical status data. The transformation is specified by an Extensible Stylesheet Language Transformation (XSLT) document. The transformer system then executes the script file. When the transformer system executes the script file, the transformer system can perform various actions. For example, the transformer system can generate result data and provide the result data to one or more other systems. | 12-01-2011 |
| 20120191477 | Delivery of Information to Patients - A method for educating a patient in a location at which care will be given includes: positioning the patient in the location at which the patient will be examined by a caregiver; identifying one or more modules of educational information relevant to the patient; accessing the modules at a computing device located in the location; and presenting the modules to the patient. | 07-26-2012 |
| 20130311926 | USER INSTALLED APPLICATIONS IN A PHYSIOLOGICAL PARAMETER DISPLAY DEVICE - A physiological parameter display device displays data representing the current values of one or more physiological parameters of a patient. The device has an operating system that does not allow multiple-program execution. A program runs on the operating system. The program provides functionality that gives a user of the device an ability to install virtual applications on the device. In addition, the program provides functionality that gives the user an ability to run the virtual applications on the device while the device continues to display data representing the current value of the physiological parameter of the patient. | 11-21-2013 |
| 20140201414 | PORTABLE INSTRUMENT AND DOCKING STATION WITH DIVIDED UNIVERSAL SERIAL BUS COMMUNICATION DEVICE - A universal serial bus (USB) communication system includes a portable instrument and a docking station that communicate with a host device using a divided USB communication device. A first portion of the USB communication device is provided in the portable instrument. A second portion of the USB communication device is provided in the docking station. The first portion includes a non-USB communication device that communicates with the second portion in a non-USB format. The second portion converts the communications into a USB format suitable for the host device. | 07-17-2014 |
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| 20090321404 | ADDITION OF RARE EARTH ELEMENTS TO IMPROVE THE PERFORMANCE OF SELF SHIELDED ELECTRODES - A self-shielding welding electrode and a method of making the same are provided. The self-shielding welding electrode contains rare earth aluminide in either the flux or the electrode portion of the electrode. The self-shielding welding electrode contains at least about 0.5% by weight of the flux of rare earth aluminide. | 12-31-2009 |
| 20100102049 | ELECTRODES HAVING LITHIUM ALUMINUM ALLOY AND METHODS - A welding electrode and a method of manufacturing the same are provided. The welding electrode can include a flux portion having a material which can contain a lithium aluminum alloy. | 04-29-2010 |
| 20100116802 | ADDITION OF LITHIUM ALUMINATE TO IMPROVE THE PERFORMANCE OF SELF SHIELDED ELECTRODES - A self-shielding welding electrode and a method of making the same are provided. The self-shielding welding electrode contains lithium aluminate in either the flux or the electrode portion of the electrode. | 05-13-2010 |
| 20130233840 | ADDITION OF LITHIUM ALUMINATE TO IMPROVE THE PERFORMANCE OF SELF SHIELDED ELECTRODES - A self-shielding welding electrode and a method of making the same are provided. The self-shielding welding electrode contains lithium aluminate in either the flux or the electrode portion of the electrode. | 09-12-2013 |
| 20150034605 | HIGH FRACTURE TOUGHNESS WELDS IN THICK WORKPIECES - Embodiments of flux cored welding electrodes and methods of use thereof are disclosed. The flux cored welding electrodes limit brittleness of flux cored arc welds, particularly in thick weld deposits. Limiting brittleness in thick (e.g., from about 1″ to about 6″) flux cored arc welds is achieved by utilizing flux cored welding electrodes having chemical compositions that reduce (as compared to presently marketed electrodes) or altogether eliminate niobium and vanadium from their chemical compositions. | 02-05-2015 |
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| 20090002110 | Electric coil and core cooling method and apparatus - Provided is an electrical apparatus comprising a magnetic core, a conductive coil wound around at least a part of the core, a cooling element configured to receive a cooling fluid to cool the core and the coil during operation, and at least one biasing element operatively associated with the core to urge the core and the coil into engagement with the cooling element despite differential expansion or contraction of the core and the coil and manufacturing tolerances. Further provided is a method for making an electrical apparatus comprising disposing a conductive coil wound around at least a part of a magnetic core, disposing a cooling element between the core and the coil, the cooling element configured to receive a cooling fluid to cool the core and the coil during operation, and urging the core and the coil into engagement with the cooling element despite differential expansion or contraction of the core and the coil and manufacturing tolerances. | 01-01-2009 |
| 20090073658 | Modular Liquid Cooling System - A method and kit of components for configuring electronics cooling configurations, the kit comprising a plurality of passageway forming members, each forming member including an extruded member having first and second ends and forming at least one passageway and at least one of an input port and an output port that opens into the passageway, each forming member also including at least one plug insert secured to the second end of the forming member to block the at least one passageway, a plurality of elastomeric seals, a plurality of mechanical fasteners, wherein forming members can be arranged adjacent each other with ports aligned and the fasteners can be used to mechanically fasten the forming members together with seals there between to form various cooling configurations. | 03-19-2009 |
| 20110140822 | ELECTRIC COIL AND CORE COOLING METHOD AND APPARATUS - Provided is an electrical apparatus comprising a magnetic core, a conductive coil wound around at least a part of the core, a cooling element configured to receive a cooling fluid to cool the core and the coil during operation, and at least one biasing element operatively associated with the core to urge the core and the coil into engagement with the cooling element despite differential expansion or contraction of the core and the coil and manufacturing tolerances. Further provided is a method for making an electrical apparatus comprising disposing a conductive coil wound around at least a part of a magnetic core, disposing a cooling element between the core and the coil, the cooling element configured to receive a cooling fluid to cool the core and the coil during operation, and urging the core and the coil into engagement with the cooling element despite differential expansion or contraction of the core and the coil and manufacturing tolerances. | 06-16-2011 |
| 20120014039 | POWER BUS SYSTEM AND METHOD - Embodiment relate to an extruded high power electrical distribution. The bus can be employed in a MCC, a drive cabinet, or any such electrical enclosure to facilitate transmission of power. A body of the bus includes an elongate metal extrusion with first and second ridges extending along a length of the body from opposite edges of the body. Further, the bus includes a first groove and a second groove extending along the length of the body and into the body from a face of the body such that each of the first and second grooves comprises a cross-section having a narrow passage extending from the face into a broader cavity within the body. Additionally, the bus includes machined openings into each groove, wherein each of the machined openings is wider than the width of the corresponding groove to which it provides access. | 01-19-2012 |
| 20120014042 | COMMON MODE MAGNETIC DEVICE FOR BUS STRUCTURE - Embodiment relate to an extruded high power electrical distribution. The bus can be employed in a MCC, a drive cabinet, or any such electrical enclosure to facilitate transmission of power. A body of the bus includes an elongate metal extrusion with first and second ridges extending along a length of the body from opposite edges of the body. Further, the bus includes a first groove and a second groove extending along the length of the body and into the body from a face of the body such that each of the first and second grooves comprises a cross-section having a narrow passage extending from the face into a broader cavity within the body. Additionally, the bus includes machined openings into each groove, wherein each of the machined openings is wider than the width of the corresponding groove to which it provides access. | 01-19-2012 |
| 20120014062 | COOLING DUCT ATTACHMENT AND SEALING FOR A MOTOR DRIVE - The present invention relates generally to efficiently cooling converter and inverter components of a drive system in accordance with present embodiments. More specifically, present techniques relate to a motor drive duct system that facilitates efficient cooling and access to motor drive components. The motor drive duct system includes duct channel paths that are parallel and adjacent to one another. These channels are formed by various duct segments coupled together or integrated to form the duct system. In particular, the duct system includes a converter section that houses a converter heat sink, an inverter section that houses an inverter heat sink, an exhaust section, and an air inlet section. The air inlet section may include a blower for blowing cooling air through the duct channel paths of the converter and inverter sections. The converter section and the inverter section are configured to be attached and detached from each other at end sections that are angled to receive one another. Further, the inverter section, converter section, and air inlet section are configured to roll into and out of a cabinet, which facilitates access to field wiring. | 01-19-2012 |
| 20120017021 | BUS TO BUS POWER INTERCONNECT - A bus interconnect in accordance with present embodiments includes a via block having first and second interfaces separated by a conductive body, wherein the via block is configured to communicatively couple with a first bus through the first interface and wherein the conductive body is configured to extend through an opening in a bus support panel. A first coupling section of the jumper includes a first attachment feature, wherein the first attachment feature is configured to facilitate attachment with the second interface of the via block. A neck section of the jumper extends perpendicularly from the first coupling section, and a second coupling section of the jumper extends perpendicularly from the neck section in parallel with the first coupling section. The second coupling section includes a second attachment feature configured to facilitate attachment with a second bus. The first coupling section and the second coupling section each extend away from the neck section in different directions. | 01-19-2012 |
| 20120085524 | Modular Liquid Cooling System - Cooling systems include a first passageway forming member that includes first and second ends and at least one connecting recess that opens into first and second passageways formed by the first passageway forming member. A second passageway forming member includes first and second ends and inlet and outlet ports proximate the first end such that the first end, including an elastomeric seal and the inlet and outlet ports, is sealably insertable in and removable from the at least one connecting recess, where the inlet port opens into the first passageway and the outlet port opens into the second passageway, and where, when the first end is inserted in the at least one connecting recess, the elastomeric seal is sandwiched between and in substantial contact with both the first end and the first passageway forming member. | 04-12-2012 |
| 20130119903 | AC PRE-CHARGE CIRCUIT - AC pre-charging techniques are provided for pre-charging the DC bus on a motor drive. AC pre-charging techniques involve pre-charge circuitry including a manual switch, an automatic switch, and pre-charge control circuitry to switch the automatic switch between pre-charge and pre-charge bypass modes in response to an initialized pre-charge operation, input voltage sags, etc. In some embodiments, the pre-charge operation may be initialized by switching the manual switch closed. In some embodiments, the pre-charge operation may also be initialized by a detected voltage sag on the DC bus. The pre-charge circuitry may also be configured to disconnect a motor drive from the AC power supply under certain fault conditions. | 05-16-2013 |
| 20130121051 | DC PRE-CHARGE CIRCUIT - Systems and methods are provided for pre-charging the DC bus on a motor drive. Pre-charging techniques involve pre-charge circuitry including a manual switch, an automatic switch, and pre-charge control circuitry to switch the automatic switch between pre-charge and pre-charge bypass modes in response to an initialized pre-charge operation, input voltage sags, and so forth. In some embodiments, the pre-charge operation may be initialized by switching the manual switch closed. In some embodiments, the pre-charge operation may also be initialized by a detected voltage sag on the DC bus. The pre-charge circuitry may also be configured to disconnect to isolate a motor drive from the common DC bus under certain fault conditions. | 05-16-2013 |
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| 20090013968 | Vapor recovery system for a direct injector fuel rail assembly - A fuel rail assembly for injection of fuel includes a fuel injector socket having a fuel injector assembly inserted, a collar surrounding said fuel injector assembly and providing a gap there between; and a seal sealing the gap between the collar and the fuel injector assembly thereby forming a secondary chamber. Fuel vapors that escape the primary seal of the fuel injector installed in the fuel injector socket are captured in the secondary sealed chamber and are directed to an evaporative control system. The collar is designed such that only minimum modifications are required to both current injectors and current injector sockets. By integrating the collar into a DIG fuel rail assembly in accordance with the invention current DIG internal combustion engines may be converted to PZEV DIG engines. | 01-15-2009 |
| 20100038459 | Injector Fuel Filter With Built-In Orifice for Flow Restriction - Apparatus and method for substantially reducing or eliminating pressure pulsations caused by the opening and closing of fuel injectors. A preferred embodiment provides a restriction orifice adjacent the inlet end of a fuel injector filter of a respective fuel injector. | 02-18-2010 |
| 20100145597 | METHOD AND APPARATUS FOR CHARACTERIZING FUEL INJECTOR PERFORMANCE TO REDUCE VARIABILITY IN FUEL INJECTION - A method for equalizing fuel injector flows among a plurality of fuel injectors in an internal combustion engine including the steps of a) characterizing the electrical and/or mechanical performance of each fuel injector; b) imprinting characterization data on each fuel injector; c) reading the imprinted data into a control computer, preferably at the time of engine assembly or sub-assembly; and d) using the characterization data in an algorithm to adjust at least one electrical parameter such as hold current, peak current, and boost time for each fuel injector in an assembled engine during each fuel injection cycle. | 06-10-2010 |
| 20100300412 | Method for Optimizing Flow Performance of a Direct Injection Fuel Injector - A method for controlling a DI fuel injector relying on measurement of a engine operating parameter, preferably fuel pressure in an associated fuel rail. Regimes of low fuel injector flow require lowered fuel rail pressure, allowing lowered peak and hold currents that afford quicker closing. Under low flow conditions, a prior art fixed peak current exceeds the current required for rapid opening of the fuel injector, and a prior art fixed hold current exceeds the current required for holding the valve open for the full duration of the open window. In the present invention, the peak and hold currents, and optionally peak and hold voltages, are varied as functions of fuel rail pressure, either continuously or stepwise. The result is full function of a fuel injector over the full range of fuel flow requirements while also providing the quickest possible response under all flow conditions. | 12-02-2010 |
| 20110030656 | Fuel Injector to Fuel Rail Coupling - A threaded fastener having a conical seat is provided to mechanically couple a fuel injector assembly to a fuel rail assembly. By mating the conical seat with a spherical collar integral with the fuel injector assembly, an injector coupling is provided that mechanically supports loads from relatively high fuel pressure and combustion pressure while allowing the injector assembly to pivot relative to the fuel rail assembly. A biasing member is provided to pre-load the spherical collar against the mating conical seat. | 02-10-2011 |
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| 20100092705 | BOTTLES COMPRISING POLYESTER COMPOSITIONS WHICH COMPRISE CYCLOBUTANEDIOL - Described are bottles comprising polyester compositions comprising polyesters which comprise (a) a dicarboxylic acid component having terephthalic acid residues; optionally, aromatic dicarboxylic acid residues or aliphatic dicarboxylic acid residues or ester residues thereof; 2,2,4,4-tetramethyl-1,3-cyclobutanediol residues; and 1,4-cyclohexanedimethanol residues. | 04-15-2010 |
| 20100159176 | MISCIBLE BLENDS OF TEREPHTHALATE POLYESTERS CONTAINING 1,4-CYCLOHEXANEDIMETHANOL AND 2,2,4,4-TETRAMETHYLCYCLOBUTANE-1,3-DIOL - Disclosed are miscible, polyester blends that contain at least one first polyester comprising terephthalic acid and 1,4-cyclohexanedimethanol, and at least one second polyester comprising terephthalic acid, 2,2,4,4-tetramethyl-1,3-cyclobutanediol, and 1,4-cyclohexanedimethanol. The polyester blends have good clarity, toughness, and moldability and are useful for the preparation of shaped articles. Also disclosed are shaped articles prepared from the polyester blends. | 06-24-2010 |
| 20100300918 | BOTTLES COMPRISING POLYESTER COMPOSITIONS WHICH COMPRISE CYCLOBUTANEDIOL - Described are bottles comprising polyester compositions comprising polyesters which comprise (a) a dicarboxylic acid component having terephthalic acid residues; optionally, aromatic dicarboxylic acid residues or aliphatic dicarboxylic acid residues or ester residues thereof; 2,2,4,4-tetramethyl-1,3-cyclobutanediol residues; and 1,4-cyclohexanedimethanol residues. | 12-02-2010 |
| 20110108503 | BABY BOTTLES COMPRISING POLYESTER COMPOSITIONS WHICH COMPRISE CYCLOBUTANEDIOL - Described are baby bottle(s) comprising polyesters comprising (a) a dicarboxylic acid component having terephthalic acid or an ester thereof; optionally, an aromatic dicarboxylic acid or aliphatic dicarboxylic acid or esters thereof; 2,2,4,4-tetramethyl-1,3-cyclobutanediol; and 1,4-cyclohexanedimethanol. | 05-12-2011 |
| 20110146022 | CONTAINERS COMPRISING POLYESTER COMPOSITIONS WHICH COMPRISE CYCLOBUTANEDIOL - Described are container(s) comprising polyesters comprising (a) a dicarboxylicacidcomponent comprising terephthalic acid residues; optionally, aromatic dicarboxylic acid or aliphatic dicarboxylic acid residues; 2,2,4,4-tetramethyl-1,3-cyclobutanediol residues; and 1,4-cyclohexanedimethanol residues. | 06-23-2011 |
| 20130101773 | CONTAINERS COMPRISING POLYESTER COMPOSITIONS WHICH COMPRISE CYCLOBUTANEDIOL - Described are container(s) comprising polyesters comprising (a) a dicarboxylic acid component comprising terephthalic acid residues; optionally, aromatic dicarboxylic acid or aliphatic dicarboxylic acid residues; 2,2,4,4-tetramethyl-1,3-cyclobutanediol residues; and 1,4-cyclohexanedimethanol residues. | 04-25-2013 |
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| 20110241939 | SYSTEM AND METHOD FOR FREQUENCY DOMAIN CORRECTION OF GLOBAL NAVIGATION SATELLITE SYSTEM PSEUDORANCE MEASUREMENTS IN RECEIVERS HAVING CONTROLLED RECEPTION PATTERN ANTENNAS - Global Navigation Satellite System (GNSS) pseudorange measurements must be compensated for receiver hardware and directionally dependent antenna errors to obtain desired accuracies for high precision GNSS positioning applications. The problem of pseudorange measurement errors resulting from directionally dependent group delays is not an issue in Fixed Reception Pattern Antenna (FRPA) GNSS sensors. However, for the complex case of a GNSS receiver employing a controlled reception pattern antenna (CRPA) and dynamic beam steering, the multiplicity of combinations of antenna element outputs makes compensation of directionally dependent antenna induced errors more difficult, as the simple subtraction that might be used for FRPA compensation does not work with a CRPA. Example embodiments provide for frequency domain correction of GNSS pseudorange measurements in CRPA receivers. The correction takes place in the signal processing of the satellite signals, after they have been converted to the frequency domain, but before they are formed into beams for the respective satellites. | 10-06-2011 |
| 20130329835 | Signal Receiver with Group Delay and Amplitude Distortion Compensation - A signal receiver includes an antenna interface for receiving signals from an antenna, analog signal processing circuitry coupled to the antenna interface for processing the received signals to produce filtered signals, sampling circuitry to sample the filtered signals so as to produce digitized received signals, a digital compensator to receive the digitized received signals and compensate for non-uniform group delay and amplitude distortion introduced by the analog signal processing circuitry to produce compensated digitized received signals, and a digital processor to process the compensated digitized received signals so as to produce a result. | 12-12-2013 |
| 20130329841 | High Frequency Signal Receiver with Self-Calibrated Group Delay Compensation - A signal receiver includes an antenna interface for receiving signals from an antenna, analog signal processing circuitry coupled to the antenna interface for processing the received signals to produce filtered signals, sampling circuitry to sample the filtered signals so as to produce digitized received signals, a digital compensator to receive the digitized received signals and compensate for non-uniform group delay introduced by the analog signal processing circuitry to produce compensated digitized received signals, and a digital processor to process the compensated digitized received signals so as to produce a result. | 12-12-2013 |
| 20140070997 | Navigation Using Range Measurements to OFDM Transmitters - A signal receiver receives a time-domain signal that includes a plurality of pilot tones at a plurality of corresponding frequencies. The time-domain signal is transmitted from a transmit location. The signal receiver extracts from the received time-domain signal pilot phase values corresponding to the pilot tones. The signal receiver computes a signal propagation time of the received time-domain signal by fitting an interpolation function to residual pilot phase values, corresponding to the extracted pilot phase values, and determines a slope of the interpolation function. The signal receiver computes a range between the transmit location and the signal receiver by multiplying the computed signal propagation time with the speed of light. | 03-13-2014 |
| 20140119360 | RECEIVER AND METHOD FOR RECEIVING A COMPOSITE SIGNAL - A multiplexer is capable of multiplexing at least two signals selected from the first signal, the second signal and the null code signal. In a first mode, the multiplexer multiplexes the first signal and the null code signal consistent with a predetermined time sequence for expression of the null code in first precursor signal In a second mode, the multiplexer multiplexes the first signal and the second signal to provide a second precursor signal. A correlator can correlate the digital received composite signal to the locally generated reference signal to decode at least a first portion of the received composite signal or the entire received composite signal, depending upon the mode (e.g., operation in the first or second mode). | 05-01-2014 |
| 20140119361 | RECEIVER AND METHOD FOR RECEIVING A COMPOSITE SIGNAL - A first signal generator is arranged to generate a first signal. A compensating null code circuit is configured to provide a null code. A multiplexer is capable of multiplexing the first signal and the null code consistent with a predetermined time sequence for expression of the null code in a produced precursor signal. A ranging code generator is arranged for generating a ranging code. A mixer is capable of accepting the ranging code and the precursor signal and outputting a locally generated reference signal. After down-conversion and digitization of the received composite signal, the code correlator can correlate the digital received composite signal to the locally generated reference signal to decode at least a first portion of the received composite signal, while leaving a second portion of the received composite signal undecoded. | 05-01-2014 |
| 20140119392 | RECEIVER AND METHOD FOR RECEIVING A COMPOSITE SIGNAL - A first signal generator is arranged to generate a first signal. A ranging code generator is arranged for generating a ranging code. A mixer is capable of accepting the ranging code and the first signal and outputting a locally generated reference signal. After down-conversion and digitization of the received composite signal, the code correlator can correlate the digital received composite signal to the locally generated reference signal to decode at least a first portion of the received composite signal, while leaving a second portion of the received composite signal undecoded. A tracking loop signal processor can process one or more digital signals, of the locally generated reference signal with respect to the digital received composite signal to maximize correlation of the received composite signal to the locally generated reference signal. | 05-01-2014 |
| 20140119480 | RECEIVER AND METHOD FOR RECEIVING A COMPOSITE SIGNAL - A first signal generator is arranged to generate a first signal. A data storage device is configured to provide a null code. A multiplexer is capable of multiplexing the first signal and the null code consistent with a predetermined time sequence for expression of the null code in a produced precursor signal. A ranging code generator is arranged for generating a ranging code. A mixer is capable of accepting the ranging code and the precursor signal and outputting a locally generated reference signal. After down-conversion and digitization of the received composite signal, the code correlator can correlate the digital received composite signal to the locally generated reference signal to decode at least a first portion of the received composite signal, while leaving a second portion of the received composite signal undecoded. | 05-01-2014 |
| 20140376598 | Phase Multi-Path Mitigation - A method for mitigating a multi-path-induced error in a global navigation satellite system comprises, for a respective measurement epoch, obtaining respective representations of a composite signal including a plurality of value-pairs of the composite signal. The method further comprises, with respect to the measurement epoch: obtaining a plurality of coefficients for a set of linear equations based on the plurality of value-pairs of the composite signal; iteratively obtaining solutions for the set of linear equations, thereby solving for a code tracking timing offset, a time delay of a multi-path signal of the composite signal relative to its direct-path signal, and orthogonal representations of the multi-path signal; determining a phase error between the composite signal and the direct-path signal, due to the time delay, in accordance with the orthogonal representations of the multi-path signal; and correcting for the code tracking timing offset and the phase error. | 12-25-2014 |
| 20150070209 | Navigation Based on Locations of OFDM Transmitters - A moving signal receiver determines a plurality of signal receiver positions and corresponding ranges to the moving signal receiver from a first terrestrial transmitter by, while positioned at each of a plurality of distinct positions, determining a position of the moving signal receiver based on signals received from one or more respective sources distinct from the first terrestrial transmitter; and while determining the position of the moving signal receiver, concurrently obtaining a respective range to the moving signal receiver from the first terrestrial transmitter. The moving signal receiver computes a location of the first terrestrial transmitter based on the plurality of signal receiver positions and corresponding ranges. | 03-12-2015 |
