Patent application number | Description | Published |
20130002459 | Modified Dynamic Element Matching For Reduced Latency In A Pipeline Analog To Digital Converter - A pipeline ADC is provided in which a DEM function and summation of sequences occur within a flash ADC. According to various aspects of the present disclosure, embedding the processing functions needed for DAC and amplifier error correction with the circuitry of a coarse ADC and rearranging the digital calibration blocks HDC and DNC ensures accurate estimation of the errors. | 01-03-2013 |
20130002460 | Multichannel Analog To Digital Converter Apparatus And Method For Using - A system including a sample-and-hold circuit for receiving a plurality of analog input signals; an analog-to-digital converter for converting each of the analog inputs to a digital signal; and a processor configured for implementing fractional delay recovery for the analog-to-digital converter. In some embodiments, the fractional delay recovery includes converting each of the plurality of analog input signals to a digital version in the predetermined order; upsampling each digital version in the predetermined order; digitally filtering each upsampled value in the predetermined order; and downsampling each filtered value in the predetermined order. | 01-03-2013 |
20130009797 | Distributed Bootstrap Switch - An input circuit for an analog-to-digital converter (ADC) includes at least one bootstrap circuit, including at least one first switch for connecting electrical power to a first terminal of at least one capacitor; at least one second switch for connecting a second terminal of the at least one capacitor to a signal to be sampled; at least one third switch for connecting the first terminal of the at least one capacitor to the control gate of at least one sampling network input switch; at least one fourth switch for connecting the at least one sampling network input switch to a substrate; and at least one fifth switch for connecting the second terminal of the at least one capacitor to the substrate. | 01-10-2013 |
20130027231 | Modified Dynamic Element Matching For Reduced Latency In A Pipeline Analog To Digital Converter - A circuit in an analog-to-digital converter (ADC) includes an amplifier configured to receive an output of a backend DAC; a harmonic distortion correction circuit (HDC) coupled to the amplifier and configured to correct distortion components due to the residue amplifier present in a digital signal from the backend ADC, the HDC circuit providing an output to an adder, the adder receiving a coarse digital output from a coarse ADC; and a DAC noise cancellation circuit (DNC) configured to provide an output to the adder, wherein the DNC circuit is configured to correct distortion components due to the DAC present in the digital signal from the backend ADC; wherein the output of the adder is an ADC digital output and wherein the ADC digital output forms an input to the HDC and the DNC. | 01-31-2013 |
Patent application number | Description | Published |
20140096743 | ENGINE COMPRESSION RELEASE METHOD AND APPARATUS - The present invention comprises apparatus and methods for releasing internal combustion engine compression during cranking to reduce cranking effort and the size and weight of the starter motor and battery. It is particularly suitable for fuel conservation systems that stop the engine when the vehicle is stopped in traffic, and restart the engine when the driver steps on the accelerator petal, since such systems place heavy demands on the starter motor and battery. The apparatus provides a means for automatically shifting the valve gear such that exhaust and/or inlet valves are held slightly open during the intake compression strokes to reduce compression torque during initial cranking, and restoring the valves to normal operation before the first firing event. The method provides a sequence of steps executed by the engine electronic control module to control the compression release apparatus to carry out the engine starting process safely and reliably. | 04-10-2014 |
20150240943 | REDUCED FRICTION OIL CONTROL PISTON RINGS - Improved oil control piston rings with reduced friction compared to prior art rings are disclosed for use in liquid lubricated internal combustion engines, gas pumps, and gas compressors. The ring assemblies are interchangeable with conventional oil control rings and offer similar oil control performance. Like conventional oil control rings, they include a spring action expander that loads circular steel scraper rails against the cylinder bore to form a sliding barrier between the oil-filled crankcase and the combustion chamber and pressure sealing piston rings. Unlike conventional rings, the improved ring assemblies utilize means of supporting thinner scraper rails that form the sliding barrier with less contact force and resulting friction. | 08-27-2015 |
20150323073 | Reduced Friction Piston Rings - Improved liquid lubricated piston ring gas seals with reduced friction and wear compared to prior art rings are disclosed for use in internal combustion engines, gas pumps, and gas compressors. These improved rings allow independent adjustment of the parameters controlling friction and wear, and eliminate the tradeoff between friction and wear typical of prior art rings. | 11-12-2015 |
20150370080 | Autostereoscopic Three Dimensional Display - The present invention is an improvement in glasses-free autostereoscopic three dimensional image viewing systems. In particular, it comprises transmissive front projection and reflective rear projection screens with high optical efficiency and precision that facilitate the use of multiple low-cost digital projectors to display multiple perspective views of the displayed scene in well defined virtual apertures in the viewing region. In certain applications the invention facilitates indefinitely wide three dimensional displays that accommodate large groups of observers. | 12-24-2015 |
Patent application number | Description | Published |
20080262388 | Puncturing System For Collecting Body Fluid Sample - The invention relates to a microsampler puncturing system for collecting a body fluid from a body part, comprising a sample collection unit having a piercing element, and a puncturing instrument having a drive, by which a sample collection unit is movable on a movement path for piercing the piercing element into the skin of the body part and withdraw it again by means of a piercing and retraction movement, a setting device for setting the puncturing depth of the piercing wound to be generated, and a control device for controlling the piercing and retraction movement having the following sequentially executed movement phases: a forward phase (V), in which the piercing element is pierced up to a defined puncturing depth (dm), a retraction phase (R | 10-23-2008 |
20100092338 | Test element magazine - A test element magazine for a system for measuring the concentration of at least one constituent in a fluid sample is provided. The test element magazine comprises at least one test element in at least one chamber. The chamber is individually sealed by a sealing element. The test element comprises at least one active portion for contacting a skin portion of a patient and/or for contacting a fluid sample, wherein the test element further comprises at least one support body, wherein the support body is adapted for being engaged by an actuator. By a forward movement of the test element the support body of the test element applies a force to the sealing element, thereby forcing open the sealing of the chamber. | 04-15-2010 |
20100094172 | Test system for measuring the concentration of an analyte in a body fluid - An actuator for driving a test element is disclosed. The test element can comprise a lancet for perforating the skin of a living organism. The actuator can comprise an engaging part for engaging and driving the test element in a lancing motion. The actuator can further comprise a lancing actuator and a lancing spring. The lancing actuator can bias the lancing spring by executing a forward movement and thereby can exert a biasing force on the engaging part. The actuator can further comprise a latch element. The latch element can be a force-sensitive latch element for exerting a retention force to hold back the engaging part. The retention force can counteract the biasing force. The latch element can release the engaging part when the biasing force exerted by the lancing actuator exceeds the retention force exerted by the latch element, thereby allowing the test element to perform the lancing motion. | 04-15-2010 |
20110092855 | Analysis system for automatic skin prick analysis - Analysis system for automatically performing a skin prick analysis by pricking the skin for producing a sample of body liquid and detecting an analyte contained in the sample. The analysis system comprises a magazine with a plurality of compartments each containing a lancing element and an analysis element, and a reusable hand-held instrument having a drive assembly. The drive assembly is adapted for driving at least the following movements by manually generated mechanical force: a coupling movement by which one of the lancing elements is coupled to the drive assembly; a puncturing and sample collection movement of one of the lancing elements contained in the magazine and coupled to the drive assembly; and a remaganizing movement by which the test element is transported back into the compartment of the magazine. | 04-21-2011 |
Patent application number | Description | Published |
20140244193 | BATTERY STATE OF CHARGE TRACKING, EQUIVALENT CIRCUIT SELECTION AND BENCHMARKING - A method includes calculating a first estimated state of charge (SOC) of a battery at a first time, receiving a voltage value representing a measured voltage across the battery at a second time, calculating a filter gain at the second time, and calculating a second estimated SOC of the battery at the second time based on the first estimated SOC, the voltage value, and the filter gain. Another method includes storing, in a memory, a library of equivalent circuit models representing a battery, determining an operational mode of a battery based on a load associated with the battery, selecting one of the equivalent circuit models based on the determined operational mode, and calculating a state of charge of charge (SOC) of the battery using the selected equivalent circuit model. | 08-28-2014 |
20140244225 | BATTERY STATE OF CHARGE TRACKING, EQUIVALENT CIRCUIT SELECTION AND BENCHMARKING - A method includes calculating a first estimated state of charge (SOC) of a battery at a first time, receiving a voltage value representing a measured voltage across the battery at a second time, calculating a filter gain at the second time, and calculating a second estimated SOC of the battery at the second time based on the first estimated SOC, the voltage value, and the filter gain. Another method includes storing, in a memory, a library of equivalent circuit models representing a battery, determining an operational mode of a battery based on a load associated with the battery, selecting one of the equivalent circuit models based on the determined operational mode, and calculating a state of charge of charge (SOC) of the battery using the selected equivalent circuit model. | 08-28-2014 |
20160109529 | REPORTED STATE-OF-CHARGE SCALING - In a general aspect, a method can include providing an indication that the electronic device has changed from a battery charging state to a battery discharging state and measuring an initial measured state-of-charge (MSOC) value of a battery of the electronic device. In the event the initial MSOC value is above a threshold value, the method can further include determining a compensation value based on the initial MSOC value and the threshold value, determining an initial reported state of charge (RSOC) value by scaling the initial MSOC value using the compensation value and reporting the initial RSOC value using the electronic device. | 04-21-2016 |
Patent application number | Description | Published |
20100043883 | SYSTEM AND METHOD FOR AUTOMATED STERILE SAMPLING OF FLUID FROM A VESSEL - An automatic sterile sampling system for sampling fluid includes a steam valve, a sampling valve, a processing system, an isolation valve, and a controller. The inner diameters of the valve ports and fluid lines are less than about 8 mm. The system has tapered transitions between an outlet port of the sampling valve and an inlet port of the isolation valve and between a sample transfer port of the isolation valve and a sample transfer channel. An isolation valve drain outlet port protrudes upwardly from the isolation valve and has a longitudinal axis that is angled less than about 45° with from vertical. | 02-25-2010 |
20110027892 | METHODS AND SYSTEMS FOR IDENTIFICATION, EXTRACTION, AND TRANSFER OF ANALYTICAL DATA FOR PROCESS CONTROL - Disclosed are methods, apparatuses, and systems, for (1) providing reliable identification of analytes from an HPLC or other analytical instrument, (2) ensuring data integrity during transfer of analytical data from the instrument to, for example, a control application or other destination, and (3) near-immediate transfer of the data after analysis. Embodiments include methods, apparatuses, and systems that automatically identify a subset of analytes from a plurality of analytes able to be analyzed by a liquid chromatograph (or similar instrument) and that automatically extract a subset of result data from the instrument, where the result data relates to a liquid mixture sample from a reactor (or other source) and where the subset of data corresponds to the subset of analytes. The subset of data may then be used to control a reactor process, or other process, by, for example, transferring the subset of data to a control application. | 02-03-2011 |
Patent application number | Description | Published |
20090110572 | ANISOTROPIC BEARING SUPPORTS FOR TURBOCHARGERS - An exemplary anisotropic member ( | 04-30-2009 |
20120033904 | HYDRODYNAMIC GAS FILM BEARING COOLING FLOW CONTROL SYSTEM - A hydrodynamic gas film bearing cooling gas control system includes a hydrodynamic gas film bearing, a supply conduit, and a flow control device. The supply conduit is in fluid communication with the hydrodynamic gas film bearing, is coupled to receive a flow of cooling gas from a cooling gas supply source, and is configured to supply the flow of cooling gas to the hydrodynamic gas film bearing. The flow control device is coupled to the supply conduit and is responsive to a physical characteristic of the cooling gas or ambient environment to move between at least two positions to thereby vary the flow of cooling gas, through the supply conduit, to the hydrodynamic gas film bearing. | 02-09-2012 |
20120121446 | ANISOTROPIC BEARING SUPPORTS FOR TURBOCHARGERS - An exemplary anisotropic member supports a semi-floating bearing in a bore and can reduce non-synchronous vibration of the bearing in the bore. An anisotropic member can include an annular body configured to receive a semi-floating bearing and to space the bearing a distance from a bore surface and can be configured to impart anisotropic stiffness and damping terms to the semi-floating bearing when positioned in the bore. Such a member is suitable for use in a rotating assembly for a turbocharger where the bearing may be a semi-floating bearing. Various exemplary members, bearings, housings, assemblies, etc., are disclosed. | 05-17-2012 |
20130186105 | ANISOTROPIC VIBRATION ISOLATION MOUNTING ASSEMBLY - An anisotropic vibration isolation mounting assembly includes at least two three-parameter vibration isolators each having a first end configured for attachment to a rotating member assembly or a rotating member assembly housing and each having a second, opposing end configured for attachment to the rotating member assembly housing where the first end is configured for attachment to the rotating member assembly or to a system interface member where the first member is configured for attachment to the rotating member assembly housing. The at least two three-parameter vibration isolators are tuned anisotropically to minimize the transmission of vibrations during operation of the rotating machine. | 07-25-2013 |
20140140645 | ROTOR SUPPORT STRUCTURES INCLUDING ANISOTROPIC FOIL BEARINGS OR ANISOTROPIC BEARING HOUSINGS AND METHODS FOR CONTROLLING NON-SYNCHRONOUS VIBRATIONS OF ROTATING MACHINERY USING THE SAME - Rotor support structures including anisotropic foil bearings or anisotropic bearing housings are provided for controlling non-synchronous vibrations of rotating machinery. The rotor support structure comprises a foil bearing adapted to be disposed around a journal of a rotating rotor shaft and a bearing housing disposed around the foil bearing, wherein one of the foil bearing or the bearing housing is configured to be anisotropic. The anisotropic foil bearing and anisotropic bearing housing exhibit a stiffness in a first support direction that varies in magnitude from that in a second support direction that is substantially orthogonal to the first support direction. | 05-22-2014 |
20140154058 | ROTATING ASSEMBLIES OF TURBOMACHINERY, FOIL JOURNAL BEARING ASSEMBLIES THEREOF, AND METHODS FOR PRODUCING JOURNALS OF THE FOIL JOURNAL BEARING ASSEMBLIES - A rotating assembly of turbomachinery is provided. The rotating assembly includes a plurality of components mounted on a rotatable shaft within a housing of the turbomachinery and at least one foil journal bearing assembly for mounting the rotatable shaft to the housing. The foil journal bearing assembly includes an annular bearing carrier mounted to the housing. An annular bearing sleeve is disposed within the annular bearing carrier and attached thereto. The annular bearing sleeve is lined with a plurality of foils. A journal is mounted to the rotatable shaft. The journal has an outer surface engaging the foils. The journal is configured to at least one of the following: resist operational deflection thereof and reduce the effects of misalignment. A method for producing the journal of the foil journal bearing assembly is also provided. | 06-05-2014 |
20140255157 | ANISOTROPIC BEARING SUPPORTS FOR TURBOCHARGERS - A rotating assembly for a turbocharger can include a center housing that includes a through bore having a central axis; a bearing cartridge positioned in the through bore where the bearing cartridge includes an outer race, an inner race and rolling elements disposed between the inner race and the outer race; an anisotropic member positioned in the through bore between the outer race of the bearing cartridge and a surface of the center housing where the surface defines at least part of the through bore of the center housing; and a shaft rotatably supported in the center housing by the bearing cartridge where the inner race is mounted on the shaft and the shaft is connected at one end to a compressor wheel and at another end to a turbine wheel. | 09-11-2014 |