Patent application number | Description | Published |
20090140585 | INTERFACE CONNECTOR FOR A MOTOR AND A MOTOR INCORPORATING THE INTERFACE CONNECTOR - An interface connector for use with an electric motor. The interface connector comprises a body made of insulating materials and conductors made of conducting materials. One side of the body has a plurality of recessed openings, and the conductors are imbedded in the body such that a conductor is individually located within a respective recessed opening, although there may be a greater number of recessed openings than conductors. | 06-04-2009 |
20150345993 | SENSOR WIRE COUNT REDUCTION SYSTEM - A sensor wire count reduction system having various features is disclosed. Signals from multiple sensors may be combined together to reduce the number of wires implemented to convey the signals to a remote location. Multiple binary sensor outputs may be represented on a single wire as a multi-level signal, and may be decoded at a remote location. | 12-03-2015 |
20160001753 | APPARATUS AND SYSTEM FOR POWER DISTRIBUTION TO BRAKE SYSTEMS - A low voltage DC power system for powering an aircraft brake actuator assembly. The brake actuator assembly may comprise an electric actuator motor system with a park brake and/or a hybrid electric hydraulic system with a park brake. The brake actuator assembly may also comprise a load cell and one or more sensors. The load cell and sensors may be configured to operate with low voltage DC power. Moreover, by employing a low voltage DC power system, the wiring of an aircraft brake system may be reduced and/or simplified. | 01-07-2016 |
20160039520 | APPARATUS AND SYSTEM FOR AIRCRAFT PARK BRAKE SYSTEMS - An electro-mechanical actuator including an aircraft parking brake may include a motor shaft, a park brake disk, and a voice coil assembly. The voice coil assembly may include a bobbin configured to translate between an engaged position and a disengaged position. An engagement feature may be coupled to the bobbin. The engagement feature may contact the park brake disk in the engaged position. The engagement feature may be magnetically coupled to a voice coil magnet and washer in the disengaged position. | 02-11-2016 |
Patent application number | Description | Published |
20100099136 | Microfluidic Assay for Selection and Optimization of Drug Delivery Vehicles to Tumors - An apparatus and method for assaying a tumor drug delivery vehicle comprises a synthetic microvascular network of interconnected flow channels in fluid communication through a porous wall with a tissue space containing animal cells and means for quantifying drug delivery from the microvascular network to the animal cells. | 04-22-2010 |
20110104658 | Synthetic Microfluidic Blood-Brain Barrier - An apparatus and method for assaying blood-brain barrier properties for drug and drug delivery vehicle screening comprising of a microfluidic apparatus with gaps separating lumen and tissue space enabling formation of tight junctions similar to in vivo conditions using endothelial cells and brain cells. | 05-05-2011 |
20130192462 | ELECTROSTATIC AEROSOL CONCENTRATOR - Disclosed is an electrostatic aerosol concentrator for the concentration of aerosol particles and their collection for subsequent analysis. The concentrator comprises an airflow chamber that includes alternately energized and grounded electrode elements that work in concert to impart radial inward motion to charged aerosol particles and focusing them toward an enriched aerosol outlet. If desired, filtered air inlets may be used to provide a sheath of aerosol-free air along the chamber periphery and prevent deposition of particles onto electrode surfaces. Aerosol particles entering the airflow chamber may carry a positive or negative charge naturally, or a charge may be induced on the particles using a charging section located upstream of the aerosol inlet. Natural or induced charges on the aerosol particles may be used to selectively concentrate subpopulations of aerosol particles from a mixture of particles. For example, bacterial spores or aerosolized viruses may be selectively enriched without concentrating other aerosol particles. The particles of interest are focused and collected at an aerosol rich outlet in a small air volume, while the majority of the airflow, stripped of particles of interest, is purged to the atmosphere through an aerosol lean outlet. | 08-01-2013 |
20140251813 | BIPOLAR ELECTRODE SAMPLE PREPARATION DEVICES - An analyte selection device can include: a body defining a fluid channel having a channel inlet and channel outlet; a bipolar electrode (BPE) between the inlet and outlet; one of an anode or cathode electrically coupled with the BPE on a channel inlet side of the BPE and the other of the anode or cathode electrically coupled with the BPE on a channel outlet side of the BPE; and an electronic system operably coupled with the anode and cathode so as to polarize the BPE. The fluid channel can have any shape or dimension. The channel inlet and channel outlet can be longitudinal or lateral with respect to the longitudinal axis of the channel. The BPE can be any metallic member, such as a flat plate on a wall or mesh as a barrier BPE. The anode and cathode can be located at a position that polarizes the BPE. | 09-11-2014 |
20140255961 | SYNTHETIC MICROFLUIDIC SYSTEMS FOR WOUND HEALING AND HEMOSTASIS - A method of assaying wound healing can include: growing cells on the matrix in the first flow channel; introducing an agent that removes the matrix from the junction; introducing a matrix material into the second flow channel so as to form the second matrix in the second flow channel and junction; and detecting cellular migration into the junction onto the second matrix. The agent that removes the matrix can include a biomolecule or chemical agent. The method can include removing cells in the matrix in the junction before introducing the matrix material into the second flow channel. A bioactive agent can be introduced into the junction to determine if it modulates cellular migration and/or clot formation into the intersection openings of tissue and vascular channels. | 09-11-2014 |
20140255970 | SYNTHETIC MICROFLUIDIC SYSTEMS FOR HYPOXIA - A cell culture device can include: an internal chamber configured for an internal cell culture that has at least one port coupled to a perfusion modulating device capable of modulating perfusion in the internal chamber; at least one fluid channel bordering the internal chamber that is configured for a channel cell culture that has at least one port coupled to a perfusion modulating device capable of modulating perfusion in the fluid channel; and a wall separating the internal chamber and at least one fluid channel having gaps that fluidly couple the internal chamber with the at least one fluid channel, wherein the perfusion modulating device causes reduced fluid flow. The internal chamber can include a first cell type and the at least one fluid channel includes a second cell type. The first cell type has an ischemic zone in the middle, a non-ischemic zone adjacent with the at least one fluid channel, and a border zone between the ischemic zone and non-ischemic zone. In one aspect, the internal chamber and at least one fluid channel are modeled from physiological features. In one aspect, the internal chamber and at least one fluid channel are modeled from idealized features. | 09-11-2014 |
20140255971 | SYNTHETIC MICROFLUIDIC SYSTEMS FOR TUMOR METASTASIS - A method of assaying metastasis can include: providing a device of one of the embodiments; introducing the at least one cancer cell into the at least one internal chamber or at least one fluid channel; and studying metastasis of the at least one cancer cell. Optionally: introducing cancer cells into a first internal chamber; detecting escape of the cancer cell from the first internal chamber into the fluid channel; detecting migration of the cancer cell through the fluid channel; detecting adhesion of the cancer cell to a coating on the fluid channel; detecting invasion of the cancer cell into a second internal chamber from the fluid channel; or visualizing metastasis of the cancer cell with a visualization device. | 09-11-2014 |
Patent application number | Description | Published |
20090292480 | Synthetic Microfluidic Microvasculature Network - A synthetic microfluidic microvasculature network and associated methods mimic the structure, fluid flow characteristics, and physiological behavior of physiological microvasculature networks. Computational methods for simulating flow and particle adherence in synthetic and physiological microvascular systems and methods for determining parameters influencing particle adhesion and drug delivery are described with applications in the optimization of drug delivery and microvascular treatments and in describing disease mechanisms that affect the microvasculature. | 11-26-2009 |
20100112667 | Microfluidic Biological Extraction Chip - A microfluidic cartridge for isolating biological molecules having a capture chamber containing functionalized solid supports maintained in a fluidized state provides reduced pressure drops and bubble formation during microfluidic extraction. The cartridge may include an electric field lysis chamber and/or a chemical lysis chamber. The electric-field lysis chamber may comprise an electrically insulating structure arranged between two opposing planar electrodes. | 05-06-2010 |
20100227312 | Particle Adhesion Assay for Microfluidic Bifurcations - A method for characterizing particle adhesion in microfluidic bifurcations and junctions comprises at least one idealized bifurcation or junction. Multiple bifurcations and/or junctions can be combined on a single microfluidic chip to create microfluidic networks configured for assays specifically to characterize particle interactions at junctions or to screen particles for desired interactions with microfluidic bifurcations and/or junctions. | 09-09-2010 |
20110277632 | Electrostatic Aerosol Concentrator - Disclosed is an electrostatic aerosol concentrator for the concentration of aerosol particles and their collection for subsequent analysis. The concentrator comprises an airflow chamber that includes alternately energized and grounded electrode elements that work in concert to impart radial inward motion to charged aerosol particles and focusing them toward an enriched aerosol outlet. If desired, filtered air inlets may be used to provide a sheath of aerosol-free air along the chamber periphery and prevent deposition of particles onto electrode surfaces. Aerosol particles entering the airflow chamber may carry a positive or negative charge naturally, or a charge may be induced on the particles using a charging section located upstream of the aerosol inlet. Natural or induced charges on the aerosol particles may be used to selectively concentrate subpopulations of aerosol particles from a mixture of particles. For example, bacterial spores or aerosolized viruses may be selectively enriched without concentrating other aerosol particles. The particles of interest are focused and collected at an aerosol rich outlet in a small air volume, while the majority of the airflow, stripped of particles of interest, is purged to the atmosphere through an aerosol lean outlet. | 11-17-2011 |
20120312690 | Method and Apparatus for Separating Particles by Dielectrophoresis - Particle separation apparatus separate particles and particle populations using dielectrophoretic (DEP) forces generated by one or more pairs of electrically coupled electrodes separated by a gap. Particles suspended in a fluid are separated by DEP forces generated by the at least one electrode pair at the gap as they travel over a separation zone comprising the electrode pair. Selected particles are deflected relative to the flow of incoming particles by DEP forces that are affected by controlling applied potential, gap width, and the angle linear gaps with respect to fluid flow. The gap between an electrode pair may be a single, linear gap of constant gap, a single linear gap having variable width, or a be in the form of two or more linear gaps having constant or variable gap width having different angles with respect to one another and to the flow. | 12-13-2012 |
20120330629 | Synthetic Microfluidic Microvasculature Networks - A synthetic microfluidic microvasculature network and associated methods mimic the structure, fluid flow characteristics, and physiological behavior of physiological microvasculature networks. Computational methods for simulating flow and particle adherence in synthetic and physiological microvascular systems and methods for determining parameters influencing particle adhesion and drug delivery are described with applications in the optimization of drug delivery and microvascular treatments and in describing disease mechanisms that affect the microvasculature. | 12-27-2012 |
20130101991 | MICROFLUIDIC ASSAY IN IDEALIZED MICROVASCULAR NETWORK FOR SELECTION AND OPTIMIZATION OF DRUG DELIVERY VEHICLES TO SIMULATED TUMORS - An apparatus for assaying a tumor drug delivery vehicle and or drug can include an idealized microvascular network (IMN) of one or more interconnected idealized flow channels in fluid communication through a porous wall with a tissue space (e.g., idealized tissue space) containing animal cells and means for quantifying drug delivery through the IMN to the animal cells. | 04-25-2013 |
20130149735 | MICROFLUIDIC ASSAY IN IDEALIZED MICROVASCULAR NETWORK FOR CHARACTERIZATION OF LEUKOCYTE ADHESION CASCADE - Methods of assaying the leukocyte adhesion cascade (LAC) and monitoring leukocyte rolling, adhesion, and/or migration can be implemented with an apparatus that includes an idealized microvascular network (IMN) of one or more interconnected idealized flow channels in fluid communication through a porous wall with a tissue space (e.g., idealized tissue space). The methods of assaying the LAC can be implemented with means for quantifying modulation of the leukocyte adhesion cascade. Methods of assaying the LAC can be implemented with the device and one or more active agents to monitor leukocyte rolling, adhesion, and/or migration in the presence of absence of the active agent. Migration can be through the idealized flow channels, through the porous wall, and/or into the tissue space. | 06-13-2013 |
20150299631 | MULTI-CHAMBERED CELL CULTURE DEVICE TO MODEL ORGAN MICROPHYSIOLOGY - A cell culture device can include: a top wall; a bottom wall; one or more perimeter walls coupled with and extending between the top wall and bottom wall; and at least 3 distinct chambers between the top wall, bottom wall. The one or more perimeter walls can include: an internal chamber defined by at least one porous internal wall and having an internal chamber inlet and an internal chamber outlet; one or more boundary layer chambers having at least an inner boundary layer chamber defined by the at least one porous internal wall and at least one porous inner boundary layer wall, the at least one porous internal wall having a plurality of pores fluidically coupling the central internal chamber to the one or more boundary layer chamber; and an outer chamber defined by an outer porous boundary layer wall of the at least one porous boundary layer walls and the one or more perimeter walls and having an outer chamber inlet and an outer chamber outlet, the outer porous boundary layer wall having a plurality of pores that fluidically couple the outer chamber with the one or more boundary layer chambers. In one aspect, wherein the at least three distinct chambers are nonlinear and/or idealized. | 10-22-2015 |
20150377861 | CELL CULTURE DEVICE WITH AN ARRAY OF MICROFLUIDIC NETWORKS - A cell culture assay device can include: a substrate having a plurality of discrete microfluidic networks and a plurality of wells over the discrete microfluidic networks, each discrete microfluidic network having one or more wells fluidly coupled thereto, the wells extending upward from the discrete microfluidic networks; and a manifold body coupled with the substrate and having at least one fluid conduit pair for each microfluidic network and/or each well, each fluid conduit pair including a fluid inlet conduit and a fluid outlet conduit fluidly coupled to a corresponding microfluidic network and/or well. The substrate can be formed from a substrate base having the microfluidic networks coupled to a well plate having the wells associated with the microfluidic networks. | 12-31-2015 |
Patent application number | Description | Published |
20100067434 | QUICK SYSTEM SELECTION AND ACQUISITION FOR MULTI-MODE MOBILE DEVICES - Methods and apparatus for using network topology and coverage information from one radio access technology (RAT) network to assist acquisition of another different RAT network for a multi-mode mobile station (MS), such as acquiring a WiMAX (Worldwide Interoperability for Microwave Access) network based on topology and coverage information about a 3G (Third Generation) network and vice versa, are provided. Base station (BS) acquisition assisted in this manner may provide for quick restoration of a previously interrupted or deactivated network service, while decreasing the power consumption of the multi-mode MS during a power savings state because periodic scanning and registration need not occur. | 03-18-2010 |
20100267386 | METHODS AND APPARATUS FOR FACILITATING HANDOFF BETWEEN A FEMTOCELL BASE STATION AND A CELLULAR BASE STATION - A user may enter information about a cellular base station into a femtocell base station. A user may enter information about a femtocell base station into a subscriber station. A femtocell base station may receive a neighbor list from a cellular base station, and broadcast the neighbor list to subscriber stations that are located within a coverage area of the femtocell base station. When a subscriber station is being served by a femtocell base station, the subscriber station may receive a neighbor list from the femtocell base station and scan for potential handoff candidates using the neighbor list. When a subscriber station is being served by a cellular base station, the subscriber station may scan for potential handoff candidates using a neighbor list received from the cellular base station and also using the femtocell base station information that the user entered. | 10-21-2010 |
20100278151 | METHODS AND SYSTEMS USING EFFICIENT RANGING MESSAGE TRANSMISSION DURING INITIAL RANGING - Techniques for efficient transmission of messages in a ranging procedure between a mobile station (MS) and a base station (BS) are provided. The techniques may allow efficient bandwidth allocation for the ranging procedure. | 11-04-2010 |
20120039167 | SYSTEM, APPARATUS, AND METHOD FOR IMPROVING REDIAL PERFORMANCE IN WIRELESS COMMUNICATION SYSTEMS - In accordance with aspects of the disclosure, a method, apparatus, and computer program product are provided for wireless communication. The method, apparatus, and computer program product may be configured to acquire a first wireless network for data packet communication on a first radio access technology, request service for a voice call from a second radio access technology via a data tunnel provided by the first radio access technology, determine a failure in obtaining the requested service for the voice call, attempt to re-acquire the first radio access technology and redial the voice call via the first radio access technology in response to determining the failure, obtain the requested service for the voice call if performing of the attempt was less than or equal to a threshold, and acquire a second wireless network via the second radio access technology if performing of the attempt was greater than the threshold. | 02-16-2012 |
20130069828 | LOCATION BASED DETERMINATION TO PERFORM A RANGING PROCEDURE - Methods and systems are described for using location-based information to determine whether to perform a ranging procedure. A change in location of a device is identified. The identified change in location represents the distance the device has moved during an interval between ranging procedures. The identified change in location is analyzed to determine whether the change exceeds a threshold distance. If the change in location does not satisfy the threshold distance, a change in a signal quality metric of the device from the location associated with the previously performed ranging procedure to the current location is identified. The identified change in signal quality metric is analyzed to determine whether the change exceeds a threshold value. If the change in location of the device is less than the threshold distance and the change in the signal quality metric is less than the threshold value, the next scheduled ranging procedure is bypassed. | 03-21-2013 |
20130095840 | ENHANCEMENT OF DEDICATED RANGING IN RESPONSE TO PAGE MESSAGES FOR A MOBILE STATION - Certain embodiments of the present disclosure present methods and apparatuses for enhancing the dedicated ranging procedure. Certain embodiments improve probability of correct reception of a ranging code from a mobile station by accumulating two or more copies of the ranging code received from the MS on two or more different frames in a transmit opportunity. Certain aspects improve probability of correct reception of the ranging code by modifying timing of uplink transmission. | 04-18-2013 |
20130109386 | DYNAMICALLY POPULATING MEDIA INDEPENDENT HANDOVER (MIH) INFORMATION SERVICE DATABASE | 05-02-2013 |
20130183981 | METHODS AND APPARATUS FOR IMPROVING CELL REDIRECTION SEARCH TIME - Aspects of the present disclosure provides methods, corresponding apparatus and program products, for improving LTE to another network (e.g., Wideband Code Division Multiple Access, WCDMA) redirection search time. A user equipment (UE) may receive a redirection message indicating a frequency for a potential target cell and may attempt to acquire a target cell based on the frequency indicated in the redirection message. IF the UE's attempt to acquire a target cell based on the indicated frequency fails to find a suitable target cell, the UE may attempt to find a suitable target cell using a heuristic approach involving one or more frequencies different than the frequency indicated in the redirection message. | 07-18-2013 |
20130260736 | APPARATUS AND METHOD FOR SIGNALING NETWORK CAPABILITIES FOR A WIRELESS DEVICE - Methods and apparatus for wireless communication in a wireless communication network include maintaining a Public Land Mobile Network (PLMN) list and receiving an information request from a network, wherein the information request is associated with configuration parameters associated with the PLMN list. Aspects of the methods and apparatus configuring the UE based on the configuration parameters associated with the PLMN list. Aspects also include replying to the network that the UE is configured with the configuration parameters associated with the PLMN list. | 10-03-2013 |
20140177429 | TECHNIQUES FOR REDUCING NETWORK CONGESTION IN A WIRELESS COMMUNICATIONS SYSTEM - Methods, systems, and devices are described for reducing congestion in a wireless communications system. A second connection failure is detected, and a difference between a timestamp of the second connection failure and a timestamp of a first connection failure is calculated. Upon determining that the difference satisfies a first time threshold, information relating to one or more previous connection failures is cleared. A time period is identified. A number of connection failures from a cell that occur during the time period is identified. A determination is made as to whether the number of connection failures satisfies a threshold. Upon determining that the number of connection failures satisfies the threshold, a future connection request may be withheld for a time period. | 06-26-2014 |
20140315548 | METHODS AND APPARATUS FOR ACCESS CLASS BARRING FOR VOIP CALLS - Certain aspects of the present disclosure relate to methods and apparatus for transmission restriction. An exemplary method generally includes initiating a mobile originating (MO) call, determining availability of parameters for a first access gating mechanism for determining whether to bar or allow transmission of the MO call, selecting the first access gating mechanism or a second access gating mechanism, based on the determination of the availability of the parameters, and applying the selected gating mechanism to determine whether to bar or allow the MO call. | 10-23-2014 |
20150105066 | ADDRESSING RADIO LINK FAILURES IN WIRELESS COMMUNICATION SYSTEMS - Methods and apparatus for enhanced radio resource control (RRC) reestablishment in a communication system include addressing repeated radio link failures (RLFs). For example, the methods and apparatus include incrementing a counter value associated with a first cell based on a detection of a RLF by a user equipment (UE) in a RRC connected state with the first cell. The methods and apparatus further include determining that the counter value meets or exceeds a first barring threshold value within a cell barring evaluation time duration. Additionally, the methods and apparatus include prohibiting the UE from performing an RRC reestablishment procedure with the first cell for a first barring time duration. | 04-16-2015 |
20150117400 | SIGNALING NETWORK CAPABILITIES FOR A WIRELESS DEVICE - When a user equipment is performing a packet-switched handover from a source radio access technology (RAT) to target RAT (such as Long Term Evolution) in connected mode, the UE may indicate a UTRA RAT capability based on an operator of the source RAT or an operator of the target RAT. If the operator is associated with a TD-SCDMA network, the UE may indicate a TD-SCDMA capability. If the operator is not associated with a TD-SCDMA network, the UE may indicate a W-CDMA capability. | 04-30-2015 |
20150146694 | PRUNING A CANDIDATE CELL LIST FOR AN IDLE MODE UE AND A CONNECTED MODE UE - A method for determining candidate radio access technology (RAT) layers includes selecting one or more initial candidate RAT layer, for each configured RAT type of a UE, for a target RAT candidate list. The target can be for redirection or handover, for example. Each initial candidate RAT layer is selected regardless of network indicated RAT priorities and measurement object IDs. The method also includes selecting additional candidate RAT layers, for the list, based on the network indicated RAT priorities or the measurement object IDs. The method may be specified for when a UE is in a connected mode or an idle mode. | 05-28-2015 |
Patent application number | Description | Published |
20080265678 | Portable Power Supply - A portable power supply includes a housing, at least one battery cell, and an inverter connected to the at least one battery cell, wherein the inverter outputs at least about 3 kilowatts. A combination power supply and generator is also disclosed. | 10-30-2008 |
20080266913 | Portable Power Supply - A portable power supply includes a housing, and power circuitry providing an output AC waveform having a first positive voltage step level, a second higher positive voltage step level, a third lower positive voltage step level, a fourth negative voltage step level, a fifth higher negative voltage step level, and a sixth lower negative voltage step level. | 10-30-2008 |
20120074878 | METHOD AND SYSTEM FOR PREVENTION OF MOTOR REVERSAL - A power tool includes a brushless DC motor housed inside a tool housing, an input unit, and a control unit. The motor includes a rotor, a stator, and at least one sensor positioned to sense a state of the rotational position of the rotor inside the stator. A control unit controls commutation of the motor through a series of power switches coupled to the power supply. The control unit receives a current sensor state from the sensor and a user-selected speed from the input unit and determines whether the motor has reversed direction using the user-selected speed and the current sensor state. The control unit disables commutation of the motor if the motor has reversed direction until a proper current sensor state is received from the sensor. | 03-29-2012 |
20120074881 | METHOD AND SYSTEM FOR ELECTRONIC BRAKING OF A MOTOR - A power tool includes a housing, a brushless DC motor housed inside the housing, a power supply, a control unit, and an input unit such as a trigger switch actuated by a user. The control unit controls the commutation of the motor through a series of power switches coupled to the power supply. The control unit initiates electronic braking of the motor after occurrence of a condition in the input unit, such as trigger release or reduced speed, indicative of the power tool shut-down. A mechanism is provided to power the control unit for a predetermined amount of time after the detection of the condition from the input unit in order to complete the electronic braking of the motor. | 03-29-2012 |
20160056731 | Portable Power Supply - A portable power supply includes a housing, and power circuitry providing an output AC waveform having a first positive voltage step level, a second higher positive voltage step level, a third lower positive voltage step level, a fourth negative voltage step level, a fifth higher negative voltage step level, and a sixth lower negative voltage step level. | 02-25-2016 |
Patent application number | Description | Published |
20090066162 | On-chip power supply voltage regulation - An integrated circuit ( | 03-12-2009 |
20120187991 | CLOCK STRETCHER FOR VOLTAGE DROOP MITIGATION - A clock frequency of a clock signal used by a processor may be temporarily reduced to compensate for voltage droops in the power supply to the processor. A device may include a multiplexer to receive a group of phase shifted versions of the clock signal and to output one of the group of phase shifted versions of the clock signal as an output clock signal. A control component may receive the output clock signal from the multiplexer and a voltage droop event signal indicating whether a voltage droop event is occurring in a power supply. The control component may control, in response to the voltage droop event signal indicating the occurrence of the voltage droop event, the multiplexer to iteratively select the group of phase shifted versions of the clock signal to reduce the frequency of the output clock signal. | 07-26-2012 |
20140181537 | GUARDBAND REDUCTION FOR MULTI-CORE DATA PROCESSOR - A multi-core data processor includes multiple data processor cores and a power controller. Each data processor core has a first input for receiving a clock signal, a second input for receiving a power supply voltage, and an output for providing an idle signal. The power controller is coupled to each of the data processor cores for providing the clock signal and the power supply voltage to each of the data processor cores. The power controller provides at least one of the clock signal and the power supply voltage to an active one of the data processor cores in dependence on a number of idle signals received from the data processor cores. | 06-26-2014 |
20140181554 | POWER CONTROL FOR MULTI-CORE DATA PROCESSOR - A multi-core data processor includes multiple data processor cores and a circuit. The multiple data processor cores each include a power state controller having a first input for receiving an idle signal, a second input for receiving a release signal, a third input for receiving a control signal, and an output for providing a current power state. In response to the idle signal, the power state controller causes a corresponding data processor core to enter an idle state. In response to the release signal, the power state controller changes the current power state from the idle state to an active state in dependence on the control signal. The circuit is coupled to each of the multiple data processor cores for providing the control signal in response to current power states in the multiple data processor cores. | 06-26-2014 |
Patent application number | Description | Published |
20120206154 | INPUT DEVICE INTERFERENCE DETERMINATION - An interference determining circuit for a capacitive sensor device comprises an amplifier, absolute differential circuitry, and comparator circuitry. The amplifier is configured for receiving a reference voltage at a first input and for receiving a resulting signal at a second input. The resulting signal is from a sensor electrode of the capacitive sensor device. The absolute differential circuitry is coupled with an output of the amplifier and configured for outputting a difference signal. The difference signal represents an absolute differential between currents utilized in the amplifier. The comparator circuitry is coupled with the absolute differential circuitry and configured for generating a non-linearity indication based on a comparison of the difference signal with at least one reference signal. | 08-16-2012 |
20120207244 | INPUT DEVICE RECEIVER PATH AND TRANSMITTER PATH ERROR DIAGNOSIS - An input device comprises a processing system coupled with a plurality of receiver paths. The processing system comprises a first capacitor and a bypass switch. The first capacitor is configured to be selectively coupled with the plurality of receiver paths. The bypass switch is configured for bypassing the first capacitor. The processing system is configured to selectively couple a first receiver path of the plurality of receiver paths with the first capacitor; acquire a measurement of a first resulting signal from at least one of the first receiver path or a second receiver path of the plurality of receiver paths while the first receiver path is coupled with the first capacitor and while the bypass switch is not bypassing the first capacitor; and determine whether the first receiver path is ohmically coupled with the second receiver path based on the measurement of the first resulting signal. | 08-16-2012 |
20120287077 | INPUT SIGNAL CORRECTION ARCHITECTURE - A capacitive input device processing system comprises input signal correction circuitry. The input signal correction circuitry includes an amplifier, a correction signal generator, and a charge collection mechanism. The amplifier is configured to receive a combination signal. The combination signal comprises a resulting signal from a sensor element and a correction charge. The correction signal generator is configured to generate a correction signal. The charge collection mechanism is configured to accumulate the correction charge from the correction signal. | 11-15-2012 |
20130106722 | Pulse- Or Frame-Based Communication Using Active Stylus | 05-02-2013 |
20130106797 | Tuning Algorithm for Noise Reduction in an Active Stylus | 05-02-2013 |
20130278538 | Self-Capacitance Measurement - In one embodiment, a method includes modifying an amount of charge of a capacitance of a touch sensor. The modified amount of charge resulting in a voltage at the capacitance being a first pre-determined voltage level. The method also includes applying a first pre-determined amount of charge to the capacitance. The application of the first pre-determined amount of charge to the capacitance modifying the voltage at the capacitance from the first pre-determined voltage level to a first charging voltage level. The method also includes determining a first difference between the first charging voltage level and a reference voltage level; and determining whether a touch input to the touch sensor has occurred based on the first difference. | 10-24-2013 |
20140062970 | Tuning Algorithm for Noise Reduction in an Active Stylus - In one embodiment, a stylus receives a signal, the stylus being able to wirelessly transmit signals to and receive signals from a device, and the stylus having a plurality of electrodes disposed in a tip of the stylus. The stylus compares a first value of the signal to a first threshold and determines whether to start a timing period based at least in part on this comparison. If the timing period is started, the stylus compares a second value of the signal to a second threshold and determines whether to stop the timing period based at least in part on this second comparison. If the timing period is stopped, the stylus determines whether the duration of the timing period is within a pre-determined range of timing period values. If so, the stylus processes the signal. | 03-06-2014 |
20140104186 | Active Stylus With A Parallel Communication Channel - A method of one embodiment includes generating, by a stylus, a composite signal. The composite signal includes a first signal having a first frequency, the first signal being used by a touch-sensing device to determine a position of the stylus relative to the touch-sensing device, and a second signal having a second frequency. The second signal may include status information such as an amount of force exerted on the stylus, battery information, orientation information, information indicating whether the stylus is within a threshold distance of the touch-sensing device, information indicating a status of a button of the stylus, and/or information indicating input from a user of the stylus. Furthermore, the second frequency is higher than the first frequency. The stylus sends the composite signal to the touch-sensing device, and an electrode array of the touch-sensing device may receive the composite signal. The touch-sensing device may determine a position of the stylus by processing the composite signal and may also determine the status information by processing the composite signal. | 04-17-2014 |
20140104187 | Stylus Position System - A system of one embodiment includes a touch-sensing device and a stylus. The touch sensing device includes an electrode array, which includes a plurality of electrode line pairs, and a controller. Each electrode line pair includes a first and second electrode line to send a first and second signal, respectively. The stylus includes a sensor to measure the first and second signals, a signal processor to determine position information, and a transmitter to send position information to the touch-sensing device. | 04-17-2014 |
20140104188 | Active Stylus Communication And Position System - A method of one embodiment includes generating, by a touch-sensing device, a first signal comprising information identifying a first electrode line of an electrode array of the touch-sensing device, the first signal having a first strength. The first electrode sends the first signal to a stylus, which receives the first signal, the first signal having a received strength. The stylus sends a second signal comprising information based on the received first signal, and the touch-sensing device receives the second signal. A position of the stylus is determined based at least in part on the information identifying the first electrode line and the received strength of the first signal. | 04-17-2014 |
20140111464 | Touch Sensor With Simultaneously Driven Drive Electrodes - In one embodiment, a method comprises generating, by a controller, a plurality of drive signals. The method further includes simultaneously transmitting, by the controller, the plurality of drive signals to a plurality of drive electrodes disposed on a touch sensor. The method further includes sensing a sense electrode of a plurality of sense electrodes disposed on the touch sensor. The sensing comprises measuring, for each drive electrode of the plurality of drive electrodes, at least one value indicative of a capacitance between the sense electrode and the drive electrode. | 04-24-2014 |
20140267067 | Touch Sensor Scanning for Display-Embedded Touch Sensors - In one embodiment, a method includes receiving a request to refresh a display for a refresh period, wherein the display is coupled to a touch sensor operable to detect touch input at the display. The method also includes refreshing a first portion of the display and activating the touch sensor at a second portion of the display different from the first portion of the display during a first portion of the refresh period. The method further includes, during a second portion of the refresh period, refreshing a third portion of the display different from the first and second portions of the display and activating the touch sensor at a fourth portion of the display different from the first, second, and third portions of the display. | 09-18-2014 |
20150116271 | Pulse- or Frame-Based Communication Using Active Stylus - In one embodiment, a method includes receiving sensor data from one or more sensors in or on a stylus, the stylus including one or more electrodes and one or more computer-readable non-transitory storage media embodying logic for wirelessly transmitting signals to a device through a touch sensor of the device. The method includes generating a carrier signal and modulating the carrier signal to communicate the sensor data and wirelessly transmitting from the stylus to the device the carrier signal as modulated through the touch sensor of the device. | 04-30-2015 |
20150338932 | REDUCE STYLUS TIP WOBBLE WHEN COUPLED TO CAPACITIVE SENSOR - An algorithm for reducing stylus tip wobble for a stylus translating on a surface over and between electrodes of a touch sensor panel is disclosed. In some examples, a first position estimate can be calculated using a first position calculation method and a second position estimate can be calculated using a second position calculation method. The position of the stylus can be determined based on a weighted combination of the first and second position estimates. In some examples, the first position estimate can be calculated using an even-point centroid of signal contributions from an even number of electrodes of a touch sensor panel and the second position estimate can be calculated using an odd-point centroid of signal contributions from an odd number of electrodes. In some examples, the weighting can be assigned based on a ratio of the two largest amplitude signals and based on a ratio of the second and third largest amplitude signals. | 11-26-2015 |