Patent application number | Description | Published |
20110144931 | METHOD AND APPARATUS FOR HIGH-SPEED FAULT DETECTION IN DISTRIBUTION SYSTEMS - A method and apparatus for high-speed fault detection of circuits in power distribution networks utilizing protective relay devices ( | 06-16-2011 |
20120265360 | METHOD AND SYSTEM FOR PROGRAMMING AND IMPLEMENTING AUTOMATED FAULT ISOLATION AND RESTORATION USING SEQUENTIAL LOGIC - A method and system for programming and implementing automated fault isolation and restoration of high-speed fault detection of circuits in power distribution networks using sequential logic and peer-to-peer communication is provided. High-speed fault detection of circuits in power distribution networks uses protective relay devices ( | 10-18-2012 |
20130090775 | APPARATUS AND METHODS FOR BALANCED LOAD POINT AND PERMISSIVE CLOSE DETERMINATIONS FOR DISTRIBUTION FEEDERS - Apparatus and methods in accordance with this invention may be used with a distribution feeder that includes switches and line sections between adjacent switches, each switch being a switching point of the distribution feeder. In particular, methods and apparatus in accordance with this invention determine a first load at a first switch and a second load at a second switch coupled to the first switch via a first line section, communicate the first load and a first load budget from the first switch to the second switch, determine a third load on the first line section based on the first load and the second load, and determine a second load budget at the second switch based on the first load budget and the third load, all substantially in real time. Numerous other aspects are also provided. | 04-11-2013 |
20130265680 | SYSTEMS, METHODS AND APPARATUS FOR PROTECTING POWER DISTRIBUTION FEEDER SYSTEMS - A power distribution feeder system includes a plurality of power sources, a plurality of switching components coupled to the power sources by a plurality of line sections, and an IED coupled to each switching component and configured to monitor any line section coupled to the switching component, each IED containing protection logic configured to detect a jump in current on a faulted line section, communicate the jump in current to other IEDs coupled to the faulted line section, receive information from the other IEDs coupled to the faulted line section regarding any jump in current detected by the other IEDs, employ the received information from the other IEDs to confirm a fault in the faulted line section, and issue a trip command to isolate the faulted line section based on the current jump detected by the IED and current jump information received from other IEDs coupled to the line section. | 10-10-2013 |
20140136006 | METHOD AND SYSTEM FOR PROGRAMMING AND IMPLEMENTING AUTOMATED FAULT ISOLATION AND RESTORATION USING SEQUENTIAL LOGIC - A method and system for programming and implementing automated fault isolation and restoration of high-speed fault detection of circuits in power distribution networks using sequential logic and peer-to-peer communication is provided. High-speed fault detection of circuits in power distribution networks uses protective relay devices ( | 05-15-2014 |
Patent application number | Description | Published |
20100085325 | COMBINATION TOUCH AND TRANSDUCER INPUT SYSTEM AND METHOD - A combination touch and transducer input system is provided, which facilitates user input into an electronic system with a finger and/or a transducer (e.g., a stylus). The system includes a transducer configured to generate an electric field, and a sensor including an array of electrodes and a controller. The transducer is configured to transmit digital data, such as pen pressure data and switch status data, to the sensor. For example, the transducer comprises electronic circuitry configured to encode the digital data in a signal for transmission to the sensor. The sensor controller is configured to operate both in a touch sensing mode and in a transducer sensing mode. During the touch sensing mode, the controller determines a position of a proximate object (e.g., a finger) by capacitively sensing the object with the array of electrodes. During the transducer sensing mode, the controller determines a position of the transducer based on a signal received by the array of electrodes from the transducer, and also receives and decodes the digital data encoded in the received signal. Digital data can be encoded in a signal using any suitable digital modulation techniques, such as a Frequency-Shift Keying (FSK) technique. | 04-08-2010 |
20130271434 | COMBINATION TOUCH AND TRANSDUCER INPUT SYSTEM AND METHOD - A combination touch and transducer input system is provided, which facilitates user input into an electronic system with a finger and/or a transducer (e.g., a stylus). The system includes a transducer configured to generate an electric field, and a sensor including an array of electrodes and a controller. The transducer is configured to transmit digital data, such as pen pressure data and switch status data, to the sensor. For example, the transducer comprises electronic circuitry configured to encode the digital data in a signal for transmission to the sensor. The sensor controller is configured to operate both in a touch sensing mode and in a transducer sensing mode. During the touch sensing mode, the controller determines a position of a proximate object (e.g., a finger) by capacitively sensing the object with the array of electrodes. During the transducer sensing mode, the controller determines a position of the transducer based on a signal received by the array of electrodes from the transducer, and also receives and decodes the digital data encoded in the received signal. Digital data can be encoded in a signal using any suitable digital modulation techniques, such as a Frequency-Shift Keying (FSK) technique. | 10-17-2013 |
20140210782 | COMBINATION TOUCH AND TRANSDUCER INPUT SYSTEM AND METHOD - A combination touch and transducer input system is provided, which facilitates user input into an electronic system with a finger and/or a transducer (e.g., a stylus). The system includes a transducer configured to generate an electric field, and a sensor including an array of electrodes and a controller. The transducer is configured to transmit digital data, such as pen pressure data and switch status data, to the sensor. The sensor controller operates both in a touch sensing mode and in a transducer sensing mode. During the touch sensing mode, the controller determines a position of a proximate object (e.g., a finger) by capacitively sensing the object with the array of electrodes. During the transducer sensing mode, the controller determines a position of the transducer based on a signal received by the array of electrodes from the transducer, and also receives and decodes the digital data encoded in the received signal. | 07-31-2014 |
20140210783 | COMBINATION TOUCH AND TRANSDUCER INPUT SYSTEM AND METHOD - A combination touch and transducer input system is provided, which facilitates user input into an electronic system with a finger and/or a transducer (e.g., a stylus). The system includes a transducer configured to generate an electric field, and a sensor including an array of electrodes and a controller. The transducer is configured to transmit digital data, such as pen pressure data and switch status data, to the sensor. The sensor controller operates both in a touch sensing mode and in a transducer sensing mode. During the touch sensing mode, the controller determines a position of a proximate object (e.g., a finger) by capacitively sensing the object with the array of electrodes. During the transducer sensing mode, the controller determines a position of the transducer based on a signal received by the array of electrodes from the transducer, and also receives and decodes the digital data encoded in the received signal. | 07-31-2014 |
20140210785 | COMBINATION TOUCH AND TRANSDUCER INPUT SYSTEM AND METHOD - A combination touch and transducer input system is provided, which facilitates user input into an electronic system with a finger and/or a transducer (e.g., a stylus). The system includes a transducer configured to generate an electric field, and a sensor including an array of electrodes and a controller. The transducer is configured to transmit digital data, such as pen pressure data and switch status data, to the sensor. The sensor controller operates both in a touch sensing mode and in a transducer sensing mode. During the touch sensing mode, the controller determines a position of a proximate object (e.g., a finger) by capacitively sensing the object with the array of electrodes. During the transducer sensing mode, the controller determines a position of the transducer based on a signal received by the array of electrodes from the transducer, and also receives and decodes the digital data encoded in the received signal. | 07-31-2014 |
20140210787 | COMBINATION TOUCH AND TRANSDUCER INPUT SYSTEM AND METHOD - A combination touch and transducer input system is provided, which facilitates user input into an electronic system with a finger and/or a transducer (e.g., a stylus). The system includes a transducer configured to generate an electric field, and a sensor including an array of electrodes and a controller. The transducer is configured to transmit digital data, such as pen pressure data and switch status data, to the sensor. The sensor controller operates both in a touch sensing mode and in a transducer sensing mode. During the touch sensing mode, the controller determines a position of a proximate object (e.g., a finger) by capacitively sensing the object with the array of electrodes. During the transducer sensing mode, the controller determines a position of the transducer based on a signal received by the array of electrodes from the transducer, and also receives and decodes the digital data encoded in the received signal. | 07-31-2014 |
20150277595 | COMBINATION TOUCH AND TRANSDUCER INPUT SYSTEM AND METHOD - A combination touch and transducer input system is provided, which facilitates user input into an electronic system with a finger and/or a transducer (e.g., a stylus). The system includes a transducer configured to generate an electric field, and a sensor including an array of electrodes and a controller. The transducer is configured to transmit digital data, such as pen pressure data and switch status data, to the sensor. For example, the transducer comprises electronic circuitry configured to encode the digital data in a signal for transmission to the sensor. The sensor controller is configured to operate both in a touch sensing mode and in a transducer sensing mode. During the touch sensing mode, the controller determines a position of a proximate object (e.g., a finger) by capacitively sensing the object with the array of electrodes. During the transducer sensing mode, the controller determines a position of the transducer based on a signal received by the array of electrodes from the transducer, and also receives and decodes the digital data encoded in the received signal. Digital data can be encoded in a signal using any suitable digital modulation techniques, such as a Frequency-Shift Keying (FSK) technique. | 10-01-2015 |
20150277658 | COMBINATION TOUCH AND TRANSDUCER INPUT SYSTEM AND METHOD - A combination touch and transducer input system is provided, which facilitates user input into an electronic system with a finger and/or a transducer (e.g., a stylus). The system includes a transducer configured to generate an electric field, and a sensor including an array of electrodes and a controller. The transducer is configured to transmit digital data, such as pen pressure data and switch status data, to the sensor. For example, the transducer comprises electronic circuitry configured to encode the digital data in a signal for transmission to the sensor. The sensor controller is configured to operate both in a touch sensing mode and in a transducer sensing mode. During the touch sensing mode, the controller determines a position of a proximate object (e.g., a finger) by capacitively sensing the object with the array of electrodes. During the transducer sensing mode, the controller determines a position of the transducer based on a signal received by the array of electrodes from the transducer, and also receives and decodes the digital data encoded in the received signal. Digital data can be encoded in a signal using any suitable digital modulation techniques, such as a Frequency-Shift Keying (FSK) technique. | 10-01-2015 |
20150317002 | COMBINATION TOUCH AND TRANSDUCER INPUT SYSTEM AND METHOD - A combination touch and transducer input system is provided, which facilitates user input into an electronic system with a finger and/or a transducer (e.g., a stylus). The system includes a transducer configured to generate an electric field, and a sensor including an array of electrodes and a controller. The transducer is configured to transmit digital data, such as pen pressure data and switch status data, to the sensor. For example, the transducer comprises electronic circuitry configured to encode the digital data in a signal for transmission to the sensor. The sensor controller is configured to operate both in a touch sensing mode and in a transducer sensing mode. During the touch sensing mode, the controller determines a position of a proximate object (e.g., a finger) by capacitively sensing the object with the array of electrodes. During the transducer sensing mode, the controller determines a position of the transducer based on a signal received by the array of electrodes from the transducer, and also receives and decodes the digital data encoded in the received signal. Digital data can be encoded in a signal using any suitable digital modulation techniques, such as a Frequency-Shift Keying (FSK) technique. | 11-05-2015 |
Patent application number | Description | Published |
20120271512 | DETECTION OF AND COUNTER-MEASURES FOR JACKKNIFE ENABLING CONDITIONS DURING TRAILER BACKUP ASSIST - A vehicle comprises a trailer angle detection apparatus and a trailer backup control system coupled to the trailer angle detection apparatus. The trailer angle detection apparatus is configured for outputting a signal generated as a function of an angle between the vehicle and a trailer towably attached to the vehicle. The trailer backup control system includes a jackknife enabling condition detector and a jackknife counter-measures controller. The jackknife counter-measures controller alters a setting of at least one vehicle operating parameter for alleviating an adverse jackknife condition during backing of the trailer by the vehicle when the jackknife enabling condition detector determines that a jackknife enabling condition has been attained at a particular point in time during backing of the trailer by the vehicle. | 10-25-2012 |
20120271514 | ROTATABLE DRIVER INTERFACE FOR TRAILER BACKUP ASSIST - A trailer backup steering input apparatus is coupled to a vehicle. The trailer backup steering input apparatus comprises a rotatable control element (e.g., a knob) and a rotatable control element movement sensing device. The rotatable control element biased to an at-rest position between opposing rotational ranges of motion. The rotatable control element movement sensing device is coupled to the rotatable control element for sensing movement of the rotatable control element. The rotatable control element movement sensing device outputs a signal generated as a function of an amount of rotation of the rotatable control element with respect to the at-rest position, a rate movement of the rotatable control element, and/or a direction of movement of the rotatable control element with respect to the at-rest position. | 10-25-2012 |
20120271515 | TRAILER PATH CURVATURE CONTROL FOR TRAILER BACKUP ASSIST - A vehicle has a trailer backup steering input apparatus, a trailer backup assist control module coupled to the a trailer backup steering input apparatus, and an electric power assist steering system coupled to the trailer backup assist control module and. The trailer backup steering input apparatus is configured for outputting a trailer path curvature signal approximating a desired curvature for a path of travel of a trailer towably coupled to the vehicle. The trailer backup assist control module is configured for determining vehicle steering information as a function of the trailer path curvature signa. The electric power assist steering system is configured for controlling steering of steered wheels of the vehicle as a function of the vehicle steering information. | 10-25-2012 |
20120271522 | MANAGING JACKKNIFE ENABLING CONDITIONS DURING BACKING OF A TRAILER BY REDUCING SPEED OF A VEHICLE BACKING THE TRAILER - A vehicle comprises a trailer angle detection apparatus and a trailer backup control system. The trailer angle detection apparatus is configured for outputting hitch angle information generated as a function of an angle between the vehicle and a trailer towably attached thereto. The trailer backup control system includes a jackknife enabling condition detector and a jackknife counter-measures controller coupled to the trailer angle detection apparatus. The jackknife enabling condition detector is coupled to the trailer angle detection apparatus for receiving the hitch angle information therefrom and for determining if a jackknife enabling condition has been attained at a particular point in time during backing of the trailer by the vehicle. The jackknife counter-measures controller implements a vehicle speed reducing action in response to the jackknife enabling condition detector determining that the jackknife enabling condition has been attained at the particular point in time during backing of the trailer. | 10-25-2012 |
20140046545 | DETECTION OF AND COUNTER-MEASURES FOR JACKKNIFE ENABLING CONDITIONS DURING TRAILER BACKUP ASSIST - A trailer backup control system includes a jackknife enabling condition detector and a jackknife counter-measures controller. The jackknife counter-measures controller alters a setting of at least one vehicle operating parameter for alleviating an adverse jackknife condition during backing of the trailer by the vehicle when the jackknife enabling condition detector determines that a jackknife enabling condition has been attained at a particular point in time during backing of the trailer by the vehicle, restricts a trailer backup steering input apparatus and issues a warning to the driver using the trailer backup steering input apparatus. | 02-13-2014 |
20140288777 | DETECTION OF AND COUNTER-MEASURES FOR JACKKNIFE ENABLING CONDITIONS DURING TRAILER BACKUP ASSIST - A vehicle comprises a trailer angle detection apparatus and a trailer backup control system coupled to the trailer angle detection apparatus. The trailer angle detection apparatus is configured for outputting a signal generated as a function of an angle between the vehicle and a trailer towably attached to the vehicle. The trailer backup control system includes a jackknife enabling condition detector and a jackknife counter-measures controller. The jackknife counter-measures controller alters a setting of at least one vehicle operating parameter for alleviating an adverse jackknife condition during backing of the trailer by the vehicle when the jackknife enabling condition detector determines that a jackknife enabling condition has been attained at a particular point in time during backing of the trailer by the vehicle. | 09-25-2014 |
20140309888 | DISPLAY SYSTEM UTILIZING VEHICLE AND TRAILER DYNAMICS - A display system for a vehicle and trailer is disclosed. The system comprises an interface configured to receive a directional input and a controller in communication with the interface and a screen. The controller is operable to receive a hitch angle and determine a heading direction of the trailer. The controller is further operable to determine a predicted heading of the vehicle aligned with the trailer based on the hitch angle. The predicted heading of the trailer is then displayed by the controller on the screen. | 10-16-2014 |
20140379217 | MAXIMUM TRAILER ANGLE DETERMINATION AND CONTROL FOR A TRAILER BACKUP ASSIST SYSTEM - The trailer backup assist system has a human machine interface coupled to a controller having a setup module, a calibration module, an activation module and a control module configured to receive trailer measurements, apply trailer measurements, activate and control vehicle systems to calibrate and implement a curvature control algorithm that controls the reverse movement of the vehicle-trailer combination in a manner consistent with a driver request. When incorrect trailer measurements have been entered, the trailer backup assist system recognizes the error, initiates a warning and requests corrective action to correct the trailer measurements. Default values for a maximum controllable curvature limit and a maximum controllable angle replace the limits calculated and applied by the calibration model that used incorrect trailer measurements, until corrected trailer measurements may be entered by the driver. | 12-25-2014 |
20140379219 | TRAILER BACKUP ASSIST CURVATURE CONTROL - A vehicle has a trailer backup steering input apparatus, a trailer backup assist control module coupled to the a trailer backup steering input apparatus, and an electric power assist steering system coupled to the trailer backup assist control module and. The trailer backup steering input apparatus is configured for outputting a trailer path curvature signal approximating a desired curvature for a path of travel of a trailer towably coupled to the vehicle. The trailer backup assist control module is configured for determining vehicle steering information as a function of the trailer path curvature signal. The electric power assist steering system is configured for controlling steering of steered wheels of the vehicle as a function of the vehicle steering information. | 12-25-2014 |
20150134183 | INTUITIVE DRIVER INTERFACE FOR TRAILER BACKUP ASSIST - A trailer backup steering input apparatus is coupled to a vehicle. The trailer backup steering input apparatus comprises a rotatable control element (e.g., a knob) and a rotatable control element movement sensing device. The rotatable control element biased to an at-rest position between opposing rotational ranges of motion. The rotatable control element movement sensing device is coupled to the rotatable control element for sensing movement of the rotatable control element. The rotatable control element movement sensing device outputs a signal generated as a function of an amount of rotation of the rotatable control element with respect to the at-rest position, a rate movement of the rotatable control element, and/or a direction of movement of the rotatable control element with respect to the at-rest position. | 05-14-2015 |
Patent application number | Description | Published |
20110079096 | DISSOLUTION TEST VESSEL WITH INTEGRAL VERTICALITY CONTROL - A vessel includes a cylindrical section coaxially disposed about a central axis of the vessel. The cylindrical section includes an inside vessel surface, an outside vessel surface opposing the inside vessel surface, an upper end region circumscribing a vessel opening, and a lower end region axially spaced from the upper end region. A bottom section is disposed at the lower end region. A flange is coaxially disposed about the central axis and extends radially outward from the outside vessel surface at the upper end region. The flange includes a bottom surface facing generally toward the lower end region and perpendicular to the inside vessel surface. A ring may be coaxially disposed about the central axis and provide the bottom surface. An annular shoulder may protrude from the outside vessel surface, and may be spaced from or integrally adjoined to the flange. | 04-07-2011 |
20110216805 | DISSOLUTION TESTING WITH INFRARED TEMPERATURE MEASUREMENT - A dissolution test apparatus may include a vessel support member, a sensor support member, infrared temperature sensors, and an electronic controller. The vessel support member may have apertures for receiving vessels. The infrared temperature sensors are mounted at the sensor support member. Each infrared temperature sensor is positioned proximate to a respective vessel mounting site to receive infrared radiation emitted by media contained in a vessel mounted at the vessel mounting site, and is configured to transmit a measurement signal indicative of the temperature of the media. The electronic controller communicates with the infrared temperature sensors and is configured to receive and process the measurement signals transmitted from the infrared temperature sensors. The electronic controller may be configured to control media temperature in the vessels. | 09-08-2011 |
20120095723 | METHODS AND APPARATUS FOR ACQUIRING PHYSICAL MEASUREMENTS RELATING TO A VESSEL AND A SHAFT WITHIN A VESSEL - An apparatus is used for determining at least one parameter relating to an elongate member disposed within a vessel. The apparatus includes at least one measurement unit having a light emitting component and a corresponding light receiving component. The light receiving component is positioned apart from the light emitting component such that the elongate member is positionable between the light emitting component and the light receiving component. Additionally, the light emitting component is adapted to emit light towards the light receiving component, and the light receiving component is adapted to generate a signal corresponding to the light received from the light emitting component. A method for determining at least one parameter relating to the elongate member disposed within the vessel is also provided. | 04-19-2012 |
20120102721 | APPARATUS AND METHOD FOR HOLDING A CONTACT LENS DURING IN VITRO TESTING - An apparatus for holding a contact lens during in vitro testing includes a first support member, a second support member, an alignment rod, and a cage member. The first support member includes a first end cap and a body portion. The body portion includes grooves formed in a lateral surface extending from the first end cap. The alignment rod is configured for interconnecting the body portion and a second end cap of the second support member. The cage member is positionable about the body portion between the first and second end caps, and includes an inner surface, an outer surface, and a plurality of openings between the inner surface and the outer surface. The inner surface and the lateral surface cooperatively define an annular space therebetween and a plurality of fluid flow paths between the inner space and the openings. The annular space is configured for receiving the contact lens. | 05-03-2012 |
20120109567 | SYSTEMS AND METHODS FOR ACQUIRING AND MANAGING SENSOR DATA RELATED TO DISSOLUTION TESTING APPARATUS - In acquiring and managing measurement data relating to operating parameters of a dissolution tester, operating parameters are measured by operating one or more sensors. The measured operating parameters are transmitted from the sensors to a user computing device. It is then determined whether the measured operating parameters are in compliance or non-compliance with one or more standards, by comparing the measured operating parameters with a plurality of corresponding predefined values. The measured operating parameters and indications of compliance or non-compliance of each measured operating parameter are stored as a data record in a memory local or remote to the user computing device. The data record may be accessible by a computing device remote from the memory. The operating parameters may include, for example, shaft parameters. | 05-03-2012 |
Patent application number | Description | Published |
20100041049 | DETECTING NUCLEIC ACID - This document provides methods and materials for detecting target nucleic acid. For example, methods and materials for detecting the presence or absence of target nucleic acid, methods and materials for detecting the amount of target nucleic acid present within a sample, kits for detecting the presence or absence of target nucleic acid, kits for detecting the amount of target nucleic acid present within a sample, and methods for making such kits are provided. | 02-18-2010 |
20110200983 | METHODS AND MATERIALS FOR DETECTING VIRAL OR MICROBIAL INFECTIONS - This document provides methods and materials for detecting target nucleic acid. For example, methods and materials for detecting the presence or absence of target nucleic acid, methods and materials for detecting the amount of target nucleic acid present within a sample, kits for detecting the presence or absence of target nucleic acid, kits for detecting the amount of target nucleic acid present within a sample, and methods for making such kits are provided. | 08-18-2011 |
20110201000 | METHODS AND MATERIALS FOR DETECTING GENETIC OR EPIGENETIC ELEMENTS - This document provides methods and materials for detecting genetic and/or epigenetic elements. For example, methods and materials for detecting the presence or absence of target nucleic acid containing a genetic or epigenetic element, methods and materials for detecting the amount of target nucleic acid containing a genetic or epigenetic element within a sample, kits for detecting the presence or absence of target nucleic acid containing a genetic or epigenetic element, kits for detecting the amount of target nucleic acid containing a genetic or epigenetic element present within a sample, and methods for making such kits are provided. | 08-18-2011 |
20110201001 | METHODS AND MATERIALS FOR ASSESSING RNA EXPRESSION - This document provides methods and materials for assessing RNA expression. For example, methods and materials for detecting the presence, absence, or amount of target nucleic acid (e.g., target RNA or target cDNA produced from target RNA), kits for detecting the presence, absence, or amount of target nucleic acid (e.g., target RNA or target cDNA produced from target RNA), and methods for making such kits are provided. | 08-18-2011 |
20110207115 | METHODS AND MATERIALS FOR DETECTING CONTAMINATED FOOD PRODUCTS - This document provides methods and materials for detecting contaminated food products. For example, methods and materials for using an enzymatic amplification cascade of restriction endonucleases to detect nucleic acid of a microorganism or virus (e.g., a pathogen) within a sample (e.g., food product sample) being tested, thereby assessing a food product for possible contamination are provided. | 08-25-2011 |
20130005603 | DETECTING NUCLEIC ACID - This document provides methods and materials for detecting target nucleic acid. For example, methods and materials for detecting the presence or absence of target nucleic acid, methods and materials for detecting the amount of target nucleic acid present within a sample, kits for detecting the presence or absence of target nucleic acid, kits for detecting the amount of target nucleic acid present within a sample, and methods for making such kits are provided. | 01-03-2013 |
20130344578 | METHODS AND MATERIALS FOR ASSESSING RNA EXPRESSION - This document provides methods and materials for assessing RNA expression. For example, methods and materials for detecting the presence, absence, or amount of target nucleic acid (e.g., target RNA or target cDNA produced from target RNA), kits for detecting the presence, absence, or amount of target nucleic acid (e.g., target RNA or target cDNA produced from target RNA), and methods for making such kits are provided. | 12-26-2013 |
20140057266 | METHODS AND MATERIALS FOR DETECTING GENETIC OR EPIGENETIC ELEMENTS - This document provides methods and materials for detecting genetic and/or epigenetic elements. For example, methods and materials for detecting the presence or absence of target nucleic acid containing a genetic or epigenetic element, methods and materials for detecting the amount of target nucleic acid containing a genetic or epigenetic element within a sample, kits for detecting the presence or absence of target nucleic acid containing a genetic or epigenetic element, kits for detecting the amount of target nucleic acid containing a genetic or epigenetic element present within a sample, and methods for making such kits are provided. | 02-27-2014 |
20140106339 | METHODS AND MATERIALS FOR DETECTING CONTAMINATED FOOD PRODUCTS - This document provides methods and materials for detecting contaminated food products. For example, methods and materials for using an enzymatic amplification cascade of restriction endonucleases to detect nucleic acid of a microorganism or virus (e.g., a pathogen) within a sample (e.g., food product sample) being tested, thereby assessing a food product for possible contamination are provided. | 04-17-2014 |
20140113292 | DETECTING NUCLEIC ACID - This document provides methods and materials for detecting target nucleic acid. For example, methods and materials for detecting the presence or absence of target nucleic acid, methods and materials for detecting the amount of target nucleic acid present within a sample, kits for detecting the presence or absence of target nucleic acid, kits for detecting the amount of target nucleic acid present within a sample, and methods for making such kits are provided. | 04-24-2014 |
20140141407 | METHODS AND MATERIALS FOR DETECTING VIRAL OR MICROBIAL INFECTIONS - This document provides methods and materials for detecting target nucleic acid. For example, methods and materials for detecting the presence or absence of target nucleic acid, methods and materials for detecting the amount of target nucleic acid present within a sample, kits for detecting the presence or absence of target nucleic acid, kits for detecting the amount of target nucleic acid present within a sample, and methods for making such kits are provided. | 05-22-2014 |
20150225769 | METHODS AND MATERIALS FOR ASSESSING RNA EXPRESSION - This document provides methods and materials for assessing RNA expression. For example, methods and materials for detecting the presence, absence, or amount of target nucleic acid (e.g., target RNA or target cDNA produced from target RNA), kits for detecting the presence, absence, or amount of target nucleic acid (e.g., target RNA or target cDNA produced from target RNA), and methods for making such kits are provided. | 08-13-2015 |
20150361484 | METHODS AND MATERIALS FOR DETECTING CONTAMINATED FOOD PRODUCTS - This document provides methods and materials for detecting contaminated food products. For example, methods and materials for using an enzymatic amplification cascade of restriction endonucleases to detect nucleic acid of a microorganism or virus (e.g., a pathogen) within a sample (e.g., food product sample) being tested, thereby assessing a food product for possible contamination are provided. | 12-17-2015 |
20150361485 | METHODS AND MATERIALS FOR DETECTING VIRAL OR MICROBIAL INFECTIONS - This document provides methods and materials for detecting target nucleic acid. For example, methods and materials for detecting the presence or absence of target nucleic acid, methods and materials for detecting the amount of target nucleic acid present within a sample, kits for detecting the presence or absence of target nucleic acid, kits for detecting the amount of target nucleic acid present within a sample, and methods for making such kits are provided. | 12-17-2015 |
20150361501 | METHODS AND MATERIALS FOR DETECTING GENETIC OR EPIGENETIC ELEMENTS - This document provides methods and materials for detecting genetic and/or epigenetic elements. For example, methods and materials for detecting the presence or absence of target nucleic acid containing a genetic or epigenetic element, methods and materials for detecting the amount of target nucleic acid containing a genetic or epigenetic element within a sample, kits for detecting the presence or absence of target nucleic acid containing a genetic or epigenetic element, kits for detecting the amount of target nucleic acid containing a genetic or epigenetic element present within a sample, and methods for making such kits are provided. | 12-17-2015 |
Patent application number | Description | Published |
20080272657 | User Selectable Pin for Connection of an Internal Regulator to an External Filter/Stabilization Capacitor and Prevention of a Current Surge Therebetween - An integrated circuit device provides a choice of external pins (connections) that may be user selectable for coupling an external filter/stabilization capacitor to an internal voltage regulator. However, connecting the output of a internal voltage regulator to an uncharged external filter/stabilization capacitor (or to a capacitor charged to a different voltage level than the internal regulation voltage) through a low impedance path can cause the regulator output voltage to sag/spike if the internal voltage regulator tries to charge/discharge the capacitor up/down to equilibrium with the regulator output voltage. To minimize this potential sag/spike, the voltage on the external filter/stabilization capacitor may be adjusted in a controlled manner to substantially the same voltage as the voltage on the output of the internal voltage regulator, and then the internal voltage regulator is operationally coupled through a low impedance to the external regulator filter/stabilization capacitor. | 11-06-2008 |
20080272826 | Interrupt/Wake-Up of an Electronic Device in a Low Power Sleep Mode When Detecting a Sensor or Frequency Source Activated Frequency Change - Activation of an external sensor coupled to an electronic device will change the frequency of a low power oscillator in the electronic device that runs during a low power sleep mode of the electronic device. When a change in frequency of the low power oscillator is detected, the electronic device will wake-up from the low power sleep mode. In addition, when a change in frequency from an external frequency source is detected, the electronic device will wake-up from the low power sleep mode. | 11-06-2008 |
20080272827 | Interrupt/Wake-Up of an Electronic Device in a Low Power Sleep Mode When Detecting a Sensor or Frequency Source Activated Frequency Change - Activation of an external sensor coupled to an electronic device will change the frequency of a low power oscillator in the electronic device that runs during a low power sleep mode of the electronic device. When a change in frequency of the low power oscillator is detected, the electronic device will wake-up from the low power sleep mode. In addition, when a change in frequency from an external frequency source is detected, the electronic device will wake-up from the low power sleep mode. | 11-06-2008 |
20080272835 | Interrupt/Wake-Up of an Electronic Device in a Low Power Sleep Mode When Detecting a Sensor or Frequency Source Activated Frequency Change - Activation of an external sensor coupled to an electronic device will change the frequency of a low power oscillator in the electronic device that runs during a low power sleep mode of the electronic device. When a change in frequency of the low power oscillator is detected, the electronic device will wake-up from the low power sleep mode. In addition, when a change in frequency from an external frequency source is detected, the electronic device will wake-up from the low power sleep mode. | 11-06-2008 |
20080272836 | Interrupt/Wake-Up of an Electronic Device in a Low Power Sleep Mode When Detecting a Sensor or Frequency Source Activated Frequency Change - Activation of an external sensor coupled to an electronic device will change the frequency of a low power oscillator in the electronic device that runs during a low power sleep mode of the electronic device. When a change in frequency of the low power oscillator is detected, the electronic device will wake-up from the low power sleep mode. In addition, when a change in frequency from an external frequency source is detected, the electronic device will wake-up from the low power sleep mode. | 11-06-2008 |
20090144481 | Enhanced Microprocessor or Microcontroller - A microcontroller device has a central processing unit (CPU); a data memory coupled with the CPU divided into a plurality of memory banks, a plurality of special function registers and general purpose registers which may be memory-mapped, wherein at least the following special function registers are memory-mapped to all memory banks: a status register, a bank select register, a plurality of indirect memory address registers, a working register, and a program counter high latch; and wherein upon occurrence of a context switch, the CPU is operable to automatically save the content of the status register, the bank select register, the plurality of indirect memory address registers, the working register, and the program counter high latch, and upon return from the context switch restores the content of the status register, the bank select register, the plurality of indirect memory address registers, the working register, and the program counter high latch. | 06-04-2009 |
20090144511 | Enhanced Microprocessor or Microcontroller - An n-bit microprocessor device has an n-bit central processing unit (CPU); a plurality of special function registers and general purpose registers which are memory-mapped to a plurality of banks, with at least two 16-bit indirect memory address registers which are accessible by the CPU across all banks; a bank access unit for coupling the CPU with one of the plurality of banks; a data memory coupled with the CPU; and a program memory coupled with the CPU, wherein the indirect address registers are operable to access the data memory or program memory and wherein a bit in each of the indirect memory address registers indicates an access to the data memory or to the program memory. | 06-04-2009 |
20140019991 | ENHANCED MICROPROCESSOR OR MICROCONTROLLER - A microcontroller device has a central processing unit (CPU); a data memory coupled with the CPU divided into a plurality of memory banks, a plurality of special function registers and general purpose registers which may be memory-mapped, wherein at least the following special function registers are memory-mapped to all memory banks a status register, a bank select register, a plurality of indirect memory address registers, a working register, and a program counter high latch; and wherein upon occurrence of a context switch, the CPU is operable to automatically save the content of the status register, the bank select register, the plurality of indirect memory address registers, the working register, and the program counter high latch, and upon return from the context switch restores the content of the status register, the bank select register, the plurality of indirect memory address registers, the working register, and the program counter high latch. | 01-16-2014 |