Spatafore
Charles Spatafore, Poway, CA US
Patent application number | Description | Published |
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20080213084 | Gas Turbine Overspeed Protection System - An overspeed protection system for a gas turbine engine comprises: a plurality of engine speed sensors that generate engine speed signals; and a plurality of engine overspeed detection channels, each channel comprising an overspeed detector that receives and generates an overspeed signal when it detects the engine speed signal exceeding a selected value of overspeed. | 09-04-2008 |
David R. Spatafore, Blaine, MN US
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20100161866 | LOGIC CONTROLLER HAVING HARD-CODED CONTROL LOGIC AND PROGRAMMABLE OVERRIDE CONTROL STORE ENTRIES - Control logic of a node controller receives an input vector and produces an output vector. The control logic includes a plurality of tied control store entries including hard-coded logic to identify unique values of the input vector and to produce the output vector from a hard-coded output vector when the input vector is identified and when the tied control store is enabled. The control logic also includes a plurality of spare control store entries including programmable logic configurable to identify values of the input vector and to produce the output vector from a programmable output vector when the input vector is identified and when the spare control store is enabled. One of the spare control store entries that is configured to identify a value of the input vector that none of the tied control store entries that are enabled by the entry-enables register arc configured to identify is enabled. | 06-24-2010 |
20100205385 | METHOD, SYSTEM, AND APPARATUS FOR SUPPORTING LIMITED ADDRESS MODE MEMORY ACCESS - Supporting limited address mode memory access involves receiving a write request from the processor targeted to a first predetermined address. A data portion of the write request includes a target address of the system memory. In response to determining the write request is targeted to the first predetermined address, the target address is sent via a system interface to be stored in a configuration register of the processor director. A memory access request targeted to a second predetermined address is received from the processor. In response to determining the memory access request is targeted to the second predetermined address, the target address is retrieved from the configuration register of the processor director. The memory access is serviced using the target address retrieved from the configuration register. | 08-12-2010 |
Paul Spatafore, Bothell, WA US
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20130189168 | FLOAT AND TUBE SYSTEM FOR SEPARATING A SUSPENSION WITH AN INTERNAL TRAP - This disclosure is directed to systems for separating a target analyte from a suspension. A suspension is added to a tube. A float is also added to the tube, and the tube, float, and suspension are centrifuged together, causing the constituent components of the suspension to separate into different layers along the axial length of the tube according to their specific gravities. The float has a specific gravity that positions the float at approximately the same level as a layer containing the target analyte, when the tube, float and sample are centrifuged. Prior to isolation, the material may be located between an outer surface of the float and an inner surface of the tube, or within a central bore that extends longitudinally through the float. The target analyte may then be drawn into a compartment within the float, thereby isolating the target analyte from the other suspension constituents. | 07-25-2013 |
20140246624 | MONOCHROMATIC DOT ENSEMBLES - This disclosure is directed to systems and methods for sorting a native aggregate, such as a fluorescent nanoparticle aggregate, which includes multiple objects, some of which have different characteristics, into lower level ensembles, such as monochromatic nanoparticle ensembles. In one aspect, the system includes two detectors, one of which accepts all emitted wavelengths and another one which is preceded by a filter to permit transmission of a specific wavelength or range of wavelengths. In another aspect, the system includes multiple detectors, each detector configured to detect a given wavelength or range of wavelengths, such that no two detectors have overlapping wavelengths or ranges. In yet another aspect, the system includes an optical regulator in front of a detector. This disclosure is also directed to systems and methods for multiplexing and analyzing a target analyte using the monochromatic nanoparticle ensembles. | 09-04-2014 |
20140309553 | KITS AND METHODS FOR SEPARATING A TARGET ANALYTE FROM A SUSPENSION - This disclosure is directed to kits and methods for extracting a target analyte from a biological fluid in real time. The biological fluid, therefore, does not need to be stored or shipped/delivered. Isolating the target analyte in real-time allows for on-the-spot processing with minimal, if any, down time between collection and testing. Furthermore, isolating in real time may also allow for the biological fluid to be extracted, processed, and returned—similar to that of dialysis—to permit for more volume to be processed and tested. In one aspect, an inner surface of a conduit may include a coating having a high affinity for the target analyte. The conduit may also include features which create turbulent flow to permit all portions of the biological fluid to come into contact with the coating. In another aspect, a capture chip is used to isolate the target analyte from the biological fluid. | 10-16-2014 |
Paul Jared Spatafore, Bothell, WA US
Patent application number | Description | Published |
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20130121896 | SYSTEMS TO CONTROL FLUID FLOW IN DENSITY-BASED FLUID SEPARATION - Systems and methods that can be used to detect materials of interest in a suspension are disclosed. A suspension suspected of containing a material of interest and a float are added to a tube. When the tube, float and suspension are centrifuged together, the float expands the axial length of a layer that contains the material of interest between the outer surface of the main body of the float and the inner wall of the tube. The float includes features located on the main body of the float that enhance mixing of various agents to be added to the suspension. The features may also increase the flow of the suspension fluid and materials around the float during centrifugation. | 05-16-2013 |