Sorenson, UT
Carl D. Sorenson, Provo, UT US
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20140034710 | FRICTION STIR WELDING USING A SUPERABRASIVE TOOL - A probe for friction stir welding MMCs, ferrous alloys, non-ferrous alloys, and superalloys, as well as non-ferrous alloys, the probe including a shank, a shoulder, and a pin disposed through the shoulder and into the shank, wherein the pin and the shoulder at least include a coating comprised of a superabrasive material, the pin and shoulder being designed to reduce stress risers, disposing a collar around a portion of the shoulder and the shank to thereby prevent movement of the shoulder relative to the shank, and incorporating thermal management by providing a thermal flow barrier between the shoulder and the shank, and between the collar and the tool. | 02-06-2014 |
James L. Sorenson, Salt Lake City, UT US
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20130149707 | Method For Molecular Genealogical Research - A genealogical research and record keeping system and method for identifying commonalities in haplotypes and other genetic characteristics of a biological sample of two or more individual members. Chromosomal fragments identical by descent identify family ties between siblings, parents and children and ancestors and progeny across many generations. It is particularly useful in corroborating and improving the accuracy of genealogical data and identifying previously unknown genetic relationships. | 06-13-2013 |
Joseph Sorenson, Murray, UT US
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20100116699 | SUPPLEMENT COMPARTMENT FOR BEVERAGE CONTAINER - A dispensing cap for a container with a top opening, and a method of dispensing a supplement into a container are disclosed. The dispensing cap may include a chamber and a plunger disposed therein. A floor of the chamber may have a weakness in a predetermined location. The dispensing cap may be mated with the top opening of the container, and the plunger may be used to pierce the floor, forming an opening at the weakness. The supplement may pass through the opening into the container. | 05-13-2010 |
Kerry E. W. Sorenson, South Jordan, UT US
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20120240622 | EMBEDDED GEM AND A METHOD FOR EMBEDDING A GEM - An embedded gem and a method for embedding a gem are disclosed. An embedded gem includes a first gem and a second gem. The first gem includes a recess. The recess has an opening at the location of the table. The first gem has a first diameter. The second gem is coupled to the first gem. The second gem has a second diameter that is less than the first diameter of the first gem. The resistive fit within the recess of the first gem couples the first gem to the second gem. At least a portion of the second gem is within the recess. | 09-27-2012 |
Lee Sorenson, West Jordan, UT US
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20120312074 | AGGLOMERATION AND CHARGE LOSS SENSOR FOR MEASURING PARTICULATE MATTER - A sensor assembly to measure particulate matter is described. The sensor assembly includes a voltage source, a sensor electrode, a grounded assembly, an integration capacitor, and a current meter. The sensor electrode is coupled to the voltage source to receive a voltage. The sensor electrode is disposed within a directed and controlled exhaust flow within the sensor assembly to facilitate particle agglomeration into particulate matter structures at a surface of the sensor electrode. The grounded assembly is coupled to a ground reference and disposed at a distance from the sensor electrode. The integration capacitor is coupled to a negative side of the voltage source. The integration capacitor is configured to integrate in time current pulses from charge transfers from the sensor electrode of the particulate matter structures. The current meter is coupled to the voltage source to measure an integrated value of current supplied to the voltage source in response to charge transfers from the sensor electrode to the particulate matter structures in the exhaust flow. | 12-13-2012 |
Matthew John Sorenson, Lehi, UT US
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20090031026 | System and method for cross-authoritative configuration management - A system and method for cross-authoritative, user-based network configuration management is provided. Users log-in to a network using any device coupled to the network, and an identity manager may provide the user with a custom computing environment by verifying the user's identity and identifying content, assignments, and other configuration information associated with the user. For instance, the identity manager may retrieve a unique identifier assigned to the user, query one or more authoritative source domains based on the unique identifier, and deliver a computing environment assigned to the user. By seamlessly integrating multiple authoritative sources, administrators can make assignments to users across multiple authoritative source domains, and queries to the sources will always be up-to-date without having to perform synchronization processes. | 01-29-2009 |
20100268824 | SYSTEM AND METHOD FOR CROSS-AUTHORITATIVE CONFIGURATION MANAGEMENT - A system and method for cross-authoritative, user-based network configuration management is provided. Users log-in to a network using any device coupled to the network, and an identity manager may provide the user with a custom computing environment by verifying the user's identity and identifying content, assignments, and other configuration information associated with the user. For instance, the identity manager may retrieve a unique identifier assigned to the user, query one or more authoritative source domains based on the unique identifier, and deliver a computing environment assigned to the user. By seamlessly integrating multiple authoritative sources, administrators can make assignments to users across multiple authoritative source domains, and queries to the sources will always be up-to-date without having to perform synchronization processes. | 10-21-2010 |
Max Sorenson, Salt Lake City, UT US
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20090120804 | APPARATUS, METHODS, AND COMPOSITIONS FOR REMOVING COATINGS FROM A METAL COMPONENT - Apparatus and methods for removing coatings from metal components, such as metal components used in aircraft and other aerospace vehicles and the oil industry, as well as aqueous bath compositions. The metal component may be DC coupled with a counter electrode and immersed in an aqueous bath that includes an active oxygen source and a ligand in a composition effective to remove the coating. The aqueous bath may include hydrogen peroxide as the active oxygen source and may be maintained in a specific pH range if the temperature of the aqueous bath is controlled. In an alternative embodiment, the composition of the aqueous bath may include a non-peroxide active oxygen source, such as sodium perborate, and be maintained in a different specific pH range. An oxygen sensor may be provided to periodically monitor the concentration of active oxygen in the aqueous bath. | 05-14-2009 |
20100160544 | METHOD OF APPLYING SILANE COATING TO METAL COMPOSITION - Organofunctional silanes are applied to metal surfaces using an oil bath. Metal is immersed in an oil bath containing approximately 2% silane. In a preferred embodiment, the metal is a tire cord. The silane can either be hydrolyzed or unhydrolyzed. The hydrolyzed silanes can be in combination with a water dispersible resin. When the tire cord is coated with silane using the present method, it allows a tire to be formulated with lower sulfur levels and without cobalt. | 06-24-2010 |
20100291382 | SILANE COMPOSITIONS AND METHODS FOR BONDING RUBBER TO METALS - Compositions and methods for treating metal substrates and/or bonding metal substrates to polymeric materials, such as rubber, are provided. The compositions include at least one substantially hydrolyzed amino silane and at least one substantially hydrolyzed sulfur-containing silane Optionally, the compositions include a nano-size particulate material. The compositions provide coatings on metal substrates for protecting the metal from corrosion and for adhering rubber-like polymeric compositions to the metal with polymer-to-metal vulcanization conditions less dependent on the coating thickness, and with use of less coating materials. | 11-18-2010 |
Max Sorenson, Herriman, UT US
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20150303680 | METHODS, APPARATUSES AND SYSTEMS FOR MONITORING FOR EXPOSURE OF ELECTRONIC DEVICES TO MOISTURE AND REACTING TO EXPOSURE OF ELECTRONIC DEVICES TO MOISTURE - Systems and methods for monitoring the moisture to which an electronic device is exposed may alter or vary operation of the electronic device. Operation of the electronic device may be altered or varied to provide a notification that the electronic device has been exposed to moisture. When an electronic device is exposed to moisture, an operational mode of the electronic device may be changed. A change in the operational mode of the electronic device may include termination of the supply of power to one or more components, which may protect those components. Programs or apps that provide a user of the electronic device with information regarding exposure of the electronic device to an amount of moisture that meets or exceeds a moisture response threshold are also disclosed. | 10-22-2015 |
20150311494 | MOISTURE-RESISTANT AND ANTI-CORROSIVE ENERGY STORAGE DEVICES AND ASSOCIATED METHODS - The disclosure extends to protectively coated energy storage devices, such as rechargeable batteries, and associated methods of forming the same. An energy storage device, such as a rechargeable battery, may comprise a cell including at least one electrical terminal and a circuit board electrically coupled to the at least one electrical terminal. The rechargeable battery may also include a protective coating on at least a portion of at least one of a surface of the cell and/or at least one surface of the circuit board. The protective coating may reside between the circuit board and the cell. The protective coating may comprise a moisture resistant coating that will withstand exposure to corrosive agents, including electrolytes, corrosive gases and dust. | 10-29-2015 |
20150321214 | APPARATUSES AND SYSTEMS FOR SELECTIVELY APPLYING A PROTECTIVE COATING TO ELECTRONIC COMPONENTS AND METHODS RELATED THERETO - An apparatus for applying a protective coating to electronic device assemblies or other substrates may include a tray capable of holding multiple substrates. The tray can be selectively closed over the substrates. Lower and/or upper tray elements may include pre-formed masks thereon, which masks correspond to locations where protective coating materials should not adhere to the substrate. The masks may include a structural portion and a sealing portion. The structural portion may keep a substrate elevated to maintain an opening or channel through which protective coating materials may be applied to unmasked portions of the substrate. A sealing portion of the mask may engage the substrate to restrict flow of the protective coating material to the masked portion. Each tray may contain multiple substrates. A carrier may support multiple trays. Dozens and potentially hundreds of substrates may be carried by the carrier for simultaneous application of the protective coating. | 11-12-2015 |
Max Sorenson, Cottonwood Heights, UT US
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20130174410 | SYSTEMS FOR ASSEMBLING ELECTRONIC DEVICES WITH INTERNAL MOISTURE-RESISTANT COATINGS - A system for assembling electronic devices includes at least one coating element for applying a moisture-resistant coating to surfaces of a device under assembly, or an electronic device under assembly. As components and one or more moisture-resistant coatings are added to the electronic device under assembly to form a finished electronic device, at least one surface on which the coating resides and, thus, at least a portion of the coating itself, is located internally within the finished electronic device. Methods for assembling electronic devices that include internally confined moisture-resistant coatings are also disclosed. | 07-11-2013 |
20130176691 | MASKS FOR USE IN APPLYING PROTECTIVE COATINGS TO ELECTRONIC ASSEMBLIES, MASKED ELECTRONIC ASSEMBLIES AND ASSOCIATED METHODS - One or more masks may be used to control the application of protective (e.g., moisture-resistant, etc.) coatings to one or more portions of various components of an electronic device during assembly of the electronic device. A method for applying a protective coating to an electronic device includes assembling two or more components of the electronic device with one another. A mask may then be applied to the resulting electronic assembly. The mask may shield selected portions of the electronic assembly, while other portions of the electronic assembly, i.e., those to which a protective coating is to be applied, may remain exposed through the mask. With the mask in place, application of a protective coating to portions of the electronic assembly exposed through the mask may commence. After application of the protective coating, the mask may be removed from the electronic assembly. Embodiments of masked electronic assemblies are also disclosed. | 07-11-2013 |
20130176700 | ELECTRONIC DEVICES WITH INTERNAL MOISTURE RESISTANT COATINGS - A moisture-resistant electronic device includes at least one electronic component at least partially covered by a moisture-resistant coating. The moisture-resistant coating may be located within an interior of the electronic device. The moisture-resistant coating may cover only portions of a boundary of an internal space within the electronic device. A moisture-resistant-coating may include one or more discernible boundaries, or seams, which may be located at or adjacent to locations where two or more components of the electronic device interface with each other. Assembly methods are also disclosed. | 07-11-2013 |
20130177699 | PRECURSOR SUPPLIES, MATERIAL PROCESSING SYSTEMS WITH WHICH PRECURSOR SUPPLIES ARE CONFIGURED TO BE USED AND ASSOCIATED METHODS - In various aspects and embodiments, the present disclosure relates to the manner in which precursor materials are provided to processing equipment and, more specifically, to the manner in which precursor materials of organic polymers are delivered to systems for forming and, in some embodiments, depositing the organic polymers. In one aspect, the disclosure relates to precursor supplies, which comprise vehicles, such as binders, supports and cartridges, for delivering a precursor material to a material processing system, such as a deposition system or other processing equipment. In another aspect, the disclosure relates to material processing systems with which the precursor supplies are configured to be used. Methods for preparing precursor supplies, using precursor supplies, providing process control, and recycling precursor supplies are also disclosed. | 07-11-2013 |
20130182360 | METHODS, APPARATUSES AND SYSTEMS FOR MONITORING FOR EXPOSURE OF ELECTRONIC DEVICES TO MOISTURE AND REACTING TO EXPOSURE OF ELECTRONIC DEVICES TO MOISTURE - Systems and methods for monitoring the moisture to which an electronic device is exposed may alter or vary operation of the electronic device. Operation of the electronic device may be altered or varied to provide a notification that the electronic device has been exposed to moisture. When an electronic device is exposed to moisture, an operational mode of the electronic device may be changed. A change in the operational mode of the electronic device may include termination of the supply of power to one or more components, which may protect those components. Programs or apps that provide a user of the electronic device with information regarding exposure of the electronic device to an amount of moisture that meets or exceeds a moisture response threshold are also disclosed. | 07-18-2013 |
20130251889 | APPARATUSES, SYSTEMS AND METHODS FOR APPLYING PROTECTIVE COATINGS TO ELECTRONIC DEVICE ASSEMBLIES - A coating apparatus may be configured to concurrently receive and waterproof a large number of electronic device assemblies. The coating apparatus may include a track for transporting the electronic device assemblies into an application station. The application station may have a cubic shape, and include an entry door and an opposite exit door. The entry and exit doors may enable the introduction of substrates into the application station, as well as their removal from the application station. In addition, the entry and exit doors may enable isolation of the application station from an exterior environment and, thus, provide control over the conditions under which a moisture resistant material is applied to the substrates. Methods for making electronic devices and other substrates resistant to moisture are also disclosed. | 09-26-2013 |
20130286567 | APPARATUSES, SYSTEMS AND METHODS FOR PROTECTING ELECTRONIC DEVICE ASSEMBLIES - An apparatus for applying a protective coating to a high volume of separate electronic device assemblies includes a treatment element that is configured to prepare the high volume of electronic devices before protective coatings are applied to the electronic devices. The apparatus also includes a coating element configured to apply protective coatings to the high volume of separate electronic device assemblies. | 10-31-2013 |
20130335898 | SYSTEMS AND METHODS FOR APPLYING PROTECTIVE COATINGS TO INTERNAL SURFACES OF FULLY ASSEMBLED ELECTRONIC DEVICES - Methods for applying protective coatings to electronic devices that have already been assembled, and are in a consumer-ready or aftermarket form, are disclosed. In such a method, an electronic device may be at least partially disassembled to expose at least a portion of an interior of the electronic device. A protective coating is applied to some or all of the exposed surfaces of the electronic devices, including one or more internal surfaces, features or components of the electronic device. Thereafter, the electronic device may be reassembled. During and after reassembly, the protective coating resides internally within the electronic device. Systems for applying protective coatings to interior components of previously assembled electronic devices are also disclosed. | 12-19-2013 |
20130337292 | MOISTURE RESISTANT ENERGY STORAGE DEVICES AND ASSOCIATED METHODS - The disclosure extends to moisture resistant energy storage devices, such as rechargeable batteries, and associated methods of forming the same. An energy storage device, such as a rechargeable battery, may comprise a cell including at least one electrical terminal and a circuit board electrically coupled to the at least one electrical terminal. The rechargeable battery may also include a moisture resistant coating on at least a portion of at least one of a surface of the cell and a surface of the circuit board. A moisture resistant coating may reside between the circuit board and the cell. | 12-19-2013 |
20140160650 | SYSTEMS AND METHODS FOR APPLYING PROTECTIVE COATINGS TO INTERNAL SURFACES OF FULLY ASSEMBLED ELECTRONIC DEVICES - Methods for applying protective coatings to electronic devices that have already been assembled, and are in a consumer-ready or aftermarket form, are disclosed. In such a method, an electronic device may be at least partially disassembled to expose at least a portion of an interior of the electronic device. A protective coating is applied to some or all of the exposed surfaces of the electronic devices, including one or more internal surfaces, features or components of the electronic device. Thereafter, the electronic device may be reassembled. During and after reassembly, the protective coating resides internally within the electronic device. Systems for applying protective coatings to interior components of previously assembled electronic devices are also disclosed. | 06-12-2014 |
20140190000 | SYSTEMS AND METHODS FOR PROVIDING REFURBISHED OR REMANUFACTURED ELECTRONIC DEVICES WITH MOISTURE-RESISTANT COATINGS - An approach to refurbishing or remanufacturing an electronic device may involve exposing electrical components that are situated within an interior of the electronic device. The approach may also involve replacing one or more defective electronic components of the electronic device with one or more replacement components and applying a protective coating to at least a portion of the interior of the electronic device. The protective coating may cover the circuit board and the electronic components it carries. The protective coating may also cover at least some of the electrical connections of the electronic device. The protective coating may also be applied to the replacement component prior to reassembly. The resulting refurbished or remanufactured electronic device may thus be provided with moisture resistance to help protect the electronic device from damage caused by exposure to moisture. | 07-10-2014 |
20140191874 | APPARATUSES, SYSTEMS, AND METHODS FOR DETECTING AND REACTING TO EXPOSURE OF AN ELECTRONIC DEVICE TO MOISTURE - An electronic device includes a port for connecting the electronic device to other electronic devices and a moisture detector configured to detect an electrically conductive liquid in the first port. The moisture detector is configured to maintain a voltage on a first electrical contact of the port and to detect a short circuit between the first electrical contact and a second electrical contact of the port. The moisture detector determines that the electronic device has been exposed to an electrically conductive liquid if the monitor module detects the short circuit. The moisture detector may also put the electronic device into safe mode if it is exposed to an electrically conductive liquid. | 07-10-2014 |
20140313039 | APPARATUSES, SYSTEMS, AND METHODS FOR DETECTING AND REACTING TO EXPOSURE OF AN ELECTRONIC DEVICE TO MOISTURE - An electronic device includes a port for connecting the electronic device to other electronic devices and a moisture detector configured to detect an electrically conductive liquid in the first port. The moisture detector is configured to maintain a voltage on a first electrical contact of the port and to detect a short circuit between the first electrical contact and a second electrical contact of the port. The moisture detector determines that the electronic device has been exposed to an electrically conductive liquid if the monitor module detects the short circuit. The moisture detector may also put the electronic device into safe mode if it is exposed to an electrically conductive liquid. | 10-23-2014 |
20150072452 | METHODS FOR MASKING AND APPLYING PROTECTIVE COATINGS TO ELECTRONIC ASSEMBLIES - One or more masks may be used to control the application of protective (e.g., moisture-resistant, etc.) coatings to one or more portions of various components of an electronic device during assembly of the electronic device. A method for applying a protective coating to an electronic device includes assembling two or more components of the electronic device with one another. A mask may then be applied to the resulting electronic assembly. The mask may shield selected portions of the electronic assembly, while other portions of the electronic assembly, i.e., those to which a protective coating is to be applied, may remain exposed through the mask. With the mask in place, application of a protective coating to portions of the electronic assembly exposed through the mask may commence. After application of the protective coating, the mask may be removed from the electronic assembly. Embodiments of masked electronic assemblies are also disclosed. | 03-12-2015 |
20150146396 | ELECTRONIC DEVICES WITH INTERNAL MOISTURE-RESISTANT COATINGS - A moisture-resistant electronic device includes at least one electronic component at least partially covered by a moisture-resistant coating. The moisture-resistant coating may be located within an interior of the electronic device. The moisture-resistant coating may cover only portions of a boundary of an internal space within the electronic device. A moisture-resistant coating may include one or more discernible boundaries, or seams, which may be located at or adjacent to locations where two or more components of the electronic device interface with each other. Assembly methods are also disclosed. | 05-28-2015 |
20150209825 | MATERIAL PROCESSING SYSTEM WITH CONDUITS CONFIGURED TO PREVENT HEAT TRANSFER BETWEEN A PYROLYSIS TUBE AND ADJACENT ELEMENTS - A material processing system that prevents transmission of infrared radiation from its pyrolysis tube to one or more adjacent elements, such as a vaporization chamber or a deposition chamber, is disclosed. Such a material processing system may include at least one conduit with a non-linear element. The non-linear element of such a conduit may preclude the presence of a line-of-sight through the length of the conduit. The non-linear element may also have a shape that enables gas or vapor to flow therethrough with little or no turbulence, which, in embodiments where part or all of the material processing system lacks valves, enables the gas or vapor to flow freely through the material processing system, or at least through the valveless portion thereof. | 07-30-2015 |
Max Ernest Sorenson, Cottonwood Heights, UT US
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20140190931 | REMOVAL OF SELECTED PORTIONS OF PROTECTIVE COATINGS FROM SUBSTRATES - A method for selectively removing portions of a protective coating from a substrate, such as an electronic device, includes removing portions of the protective coating from the substrate. The removal process may include cutting the protective coating at specific locations, then removing desired portions of the protective coating from the substrate, or it may include ablating the portions of the protective coating that are to be removed. Coating and removal systems are also disclosed. | 07-10-2014 |
20140192464 | MASKING SUBSTRATES FOR APPLICATION OF PROTECTIVE COATINGS - A method for applying a protective coating to selected portions of a substrate is disclosed. The method includes applying a mask to or forming a mask on at least one portion of the substrate that is not to be covered with the protective coating. The mask may be selectively formed by applying a flowable material to the substrate. Alternatively, the mask may be formed from a preformed film. With the mask in place, the protective coating may be applied to the substrate and the mask. A portion of the protective coating that overlies the mask may be delineated from other portions of the protective coating; for example, by cutting, weakening or removing material from the protective coating at locations at or adjacent to the perimeter of the mask. The portion of the protective coating that overlies the mask, and the mask, may then be removed from the substrate. | 07-10-2014 |
20150092370 | MASKING SUBSTRATES FOR APPLICATION OF PROTECTIVE COATINGS - A method for applying a protective coating to selected portions of a substrate is disclosed. The method includes applying a mask to or forming a mask on at least one portion of the substrate that is not to be covered with the protective coating. The mask may be selectively formed by applying a flowable material to the substrate. Alternatively, the mask may be formed from a preformed film. With the mask in place, the protective coating may be applied to the substrate and the mask. A portion of the protective coating that overlies the mask may be delineated from other portions of the protective coating; for example, by cutting, weakening or removing material from the protective coating at locations at or adjacent to the perimeter of the mask. The portion of the protective coating that overlies the mask, and the mask, may then be removed from the substrate. | 04-02-2015 |
Max Ernest Sorenson, Herriman, UT US
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20150375260 | MATERIALS FOR MASKING SUBSTRATES AND ASSOCIATED METHODS - A mask material is readily discernible from a substrate to which the mask material is applied. The mask material may have a discernible characteristic, such as its color, luminescence or the like, which may render it visibly distinct from the substrate or detectable using automated inspection equipment. The discernible characteristic of the mask material may render it detectable through a protective coating. | 12-31-2015 |
Michael Sorenson, Salt Lake City, UT US
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20110092842 | IMPLANTABLE NEURAL SIGNAL ACQUISTION APPARATUS - In an embodiment, an implantable neural signal acquisition apparatus includes a plurality of electrodes, an implantable electronics package, and a wire bundle. The electrodes are configured to be subcutaneously implanted within neural tissue of a test subject and to collect analog neural signals from the test subject. The implantable electronics package is configured to be subcutaneously implanted within the test subject and to convert the analog neural signals to digital output. The wire bundle is coupled between the electrode array and the implantable electronics package and is configured to convey the analog neural signals from the electrodes to the implantable electronics package. | 04-21-2011 |
20120123289 | SYSTEM AND METHOD FOR WIRELESS TRANSMISSION OF NEURAL DATA - Embodiments of the invention generally relate to a neuralphysiological data acquisition system configured to wirelessly transmit neural data from a patient to a receive subsystem. In an embodiment, a neuralphysiological data acquisition system includes a plurality of electrodes, a headstage, and a wireless module. The electrodes are configured to be implanted subcutaneously within neural tissue of a patient and to collect analog neural data from the patient. The headstage is coupled to the electrodes, and configured to receive and convert the analog neural signals to digital output. The wireless module is coupled to the headstage and configured to wireless transmit a signal representing the digital output to a receive subsystem including a wireless receiver. | 05-17-2012 |
Paul Sorenson, Smithfield, UT US
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20130055519 | SPATULA FOR CYLINDRICAL CONTAINER - An embodiment includes a spatula with a handle and a blade. The blade includes a first blade end, an interior rigid section, a flexible straight edge, and two flexible opposing edges. At the first blade end, the blade is attached to the handle. The interior rigid section extends from the first blade end and has a substantially rectangular transverse profile. The flexible straight edge is located along the second blade end positioned opposite the first blade end. The two flexible opposing edges are substantially perpendicular to the first blade end and the second blade end and are curved in opposing directions. The interior rigid section encompasses a portion of the blade between the first blade end and the flexible straight edge and between the two flexible opposing edges. The flexible straight edge and the two flexible opposing edges deform under less stress than the interior rigid section. | 03-07-2013 |
Ronald S. Sorenson, Francis, UT US
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20140081707 | DISAMBIGUATING POINT-OF-SALE DATA THROUGH ITEM INDEXING - Methods, apparatus, and computer-readable medium can disambiguate point-of-sale data. One method receives one or more measured values. Each measured value indicating a quantity of sales allocated to a respective individual item. The method also receives an unallocated value indicating a quantity of sales allocated to an undifferentiated grouping of a plurality of the individual items. The method calculates, for each individual item of the plurality of the individual items associated with the undifferentiated grouping, a fraction of the undifferentiated grouping attributable to the respective individual item, and estimates a total sales value for at least one of the plurality of the individual items, based at least in part upon a respective measured value and a respective fraction of the undifferentiated grouping attributable to the respective individual item. | 03-20-2014 |
Steven M. Sorenson, Alpine, UT US
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20130062304 | Liquid Container Closure with Integrated Over Center Latching Assembly - Closures having an integrated over center latching assembly including an end wall, a skirt wall depending from the end wall, an outlet opening associated with the end wall and an over center latching assembly are disclosed. The over center latching assembly includes a link pivotally coupled to the closure at a first pivot point, a lever pivotally coupled to the link at a second pivot point, a closing member pivotally coupled to the closure at a third pivot point and pivotally coupled to the lever at a forth pivot point and a biasing spring coupled between the first pivot point and the fourth pivot point. The link and the lever are configured to move the over center latching assembly between a first position and a second position and the closing member is configured to close the outlet opening when the over center latching assembly is moved to the second position. | 03-14-2013 |
20130062351 | Liquid Container Closure with Integrated Push Button Latching Assembly - Closures having an integrated push button latching assembly including an end wall, a skirt wall depending from the end wall, an outlet opening associated with the end wall, a protrusion associated with the end wall and a push button latching assembly are disclosed. The push button latching assembly is pivotally coupled to the closure and is movable between a first position in which the outlet opening is covered by the assembly and a second position in which the outlet opening is exposed. The push button latching assembly includes a retaining mechanism, a closing member coupled to the retaining mechanism, a push button coupled to the retaining mechanism, and a tongue coupled to the retaining mechanism. The tongue is configured to engage the protrusion when the push button latching assembly occupies the first position and disengage the protrusion such that the push button latching assembly is movable to the second position. | 03-14-2013 |