| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 324086000 |
Polyphase (e.g., phase angle, phase rotation or sequence)
| 17 |
| 324760820 |
Digital output
| 13 |
| 324760780 |
Quadrature sensing | 5 |
| 20080224689 | Phase measurement device using inphase and quadrature components for phase estimation - A phasemeter for estimating the phase of a signal. For multi-tone signals, multiple phase estimates may be provided. An embodiment includes components operating in the digital domain, where a sampled input signal is multiplied by cosine and sine terms to provide estimates of the inphase and quadrature components. The quadrature component provides an error signal that is provided to a feedback loop, the feedback loop providing a model phase that tends to track the phase of a tone in the input signal. The cosine and sine terms are generated from the model phase. The inphase and quadrature components are used to form a residual phase, which is added to the model phase to provide an estimate of the phase of the input signal. Other embodiments are described and claimed. | 09-18-2008 |
| 20080252283 | Meter Electronics and Methods for Determining a Phase Difference Between a First Sensor Signal and a Second Sensor Signal of a Flow Meter - Meter electronics ( | 10-16-2008 |
| 20100134092 | PHASE-DIFFERENCE-CORRESPONDING-VALUE MEASUREMENT DEVICE, GAIN IMBALANCE MEASUREMENT DEVICE, METHOD, PROGRAM, AND RECORDING MEDIUM - A modulation error measurement device according to the present invention receives a demodulated signal containing a demodulated I signal and a demodulated Q signal from a quadrature demodulator receiving an RF signal output by a quadrature modulator and applying the quadrature demodulation to the received RF signal, and measures a quadrature error corresponding to a phase difference between an I component and a Q component of the modulated signal. The quadrature modulator applies quadrature modulation to an original I signal (ω | 06-03-2010 |
| 20100213925 | ADVANCED REAL-TIME GRID MONITORING SYSTEM AND METHOD - This invention deals with an advanced Real-time Grid Monitoring System (RTGMS) suitable for both single-phase and three-phase electric power systems. This invention provides an essential signal processing block to be used as a part of complex systems either focused on supervising and diagnosing power systems or devoted to control power processors interacting with the grid. This invention is based on a new algorithm very suitable for real-time characterization of the grid variables under distorted and unbalanced grid conditions. The main characteristic of this invention is the usage of a frequency-locked loop, based on detecting the grid frequency, for synchronizing to the grid variables. It results in a very robust system response in relation to existing technique based on the phase-angle detection since grid frequency is much more stable variable than the grid voltage/current phase-angle, mainly during grid faults. Moreover, the algorithm supporting this invention is very efficient and can be implemented in regular industrial microprocessors. These features make the RTGMS object of this invention ideal to be applied in the control of distributed generation systems (DGS), flexible AC transmission systems (FACTS), power quality conditioners (PQC) and uninterruptible power supplies (UPS). In all these systems, the fast and precise real time detection of the voltage and/or current sequence components under grid fault conditions is a crucial matter. | 08-26-2010 |
| 20150091548 | Measurement of Motor Rotor Position or Speed - A measurement circuit for measuring at least one of the rotational position and rotational speed of the rotor of an electric motor, typically such as may be used in an electric power assisted steering apparatus, the circuit comprising: first and second inputs for receiving first and second input signals which vary cyclically with the rotational position of the rotor, the first and second input signals at the first and second inputs varying in quadrature with each other; a phase detector circuit; and an observer circuit; in which the observer circuit is arranged to generate estimates indicative of the frequency and phase of the first and second input signals; in which the phase detector circuit is arranged to determine the phase difference between first and second estimated signals varying cyclically and at the frequency indicated by the estimates with a phase difference dependent on the phase difference indicated by the estimates, the first and second estimated signals varying in quadrature with each other on the one hand and the first and second input signals on the other by adding a multiplicative combination of the first input signal with the first estimated signal to a multiplicative combination of the second input signal with the second estimated signal to result in a sum signal dependent upon the phase difference; and in which the observer circuit is arranged to vary the estimates dependent upon the sum signal. | 04-02-2015 |
| 324760830 |
Analog output | 3 |
| 20110241653 | IMPEDANCE CALIBRATION APPARATUS OF SEMICONDUCTOR INTEGRATED CIRCUIT - An impedance calibration apparatus of a semiconductor integrated circuit includes: a D/A conversion unit configured to receive a code and generate an analog voltage depending on the code; a virtual code voltage generation unit configured to detect a level of the analog voltage and generate a plurality of virtual code voltages based on the level of the analog voltage; a comparison unit configured to receive the plurality of virtual code voltages and a reference voltage as inputs, and compare the plurality of virtual code voltages with the reference voltage to generate a plurality of comparison signals; and a code generation unit configured to receive the plurality of comparison signals and generate the code using the plurality of comparison signals. | 10-06-2011 |
| 20110285382 | POWER METER PHASE IDENTIFICATION - Methods and systems are described for determining a phase of transmitted voltage. In one embodiment, a power distribution system may operate to transmit voltage and an injected signal. The system may also include a power meter that may receive the voltage and injected signal. The power meter may determine a phase of the received voltage based on the received voltage and the injection signal. | 11-24-2011 |
| 20120098521 | LAUNDRY TREATING APPLIANCE WITH VOLTAGE DETECTION - A method of determining a voltage and phase across an electric heating element in a laundry treating appliance, such as a clothes dryer. | 04-26-2012 |
| 324087000 |
With nonlinear device (e.g., saturable reactor, rectifier), discharge device (e.g., gas tube) or lamp | 3 |
| 20120262149 | LOOP PARAMETER SENSOR USING REPETITIVE PHASE ERRORS - A method and system are disclosed for measuring a specified parameter in a phase-locked loop frequency synthesizer (PLL). In one embodiment, the method comprises introducing multiple phase errors in the PLL, measuring a specified aspect of the introduced phase errors, and determining a value for the specified parameter using the measured aspects of the introduced phase errors. In one embodiment, the phase errors are introduced repetitively in the PLL, and these phase errors produce a modified phase difference between the reference signal and the feedback signal in the PPL. In one embodiment, crossover times, when this modified phase difference crosses over a preset value, are determined, and these crossover times are used to determine the value for the specified parameter. In an embodiment, the parameter is calculated as a mathematical function of the crossover times. The parameter may be, for example, the bandwidth of the PLL. | 10-18-2012 |
| 20140062458 | SYSTEM AND METHOD OF MONITORING THE WAVEFORM OF THE VOLTAGE OF THE ELECTRICAL GRID - The present invention relates to a system for monitoring the electric network voltage waveform, comprising: switching means ( | 03-06-2014 |
| 20160036452 | LOOP PARAMETER SENSOR USING REPETITIVE PHASE ERRORS - A method and system are disclosed for measuring a specified parameter in a phase-locked loop frequency synthesizer (PLL). In one embodiment, the method comprises introducing multiple phase errors in the PLL, measuring a specified aspect of the introduced phase errors, and determining a value for the specified parameter using the measured aspects of the introduced phase errors. In one embodiment, the phase errors are introduced repetitively in the PLL, and these phase errors produce a modified phase difference between the reference signal and the feedback signal in the PPL. In one embodiment, crossover times, when this modified phase difference crosses over a preset value, are determined, and these crossover times are used to determine the value for the specified parameter. In an embodiment, the parameter is calculated as a mathematical function of the crossover times. The parameter may be, for example, the bandwidth of the PLL. | 02-04-2016 |
| 324760790 |
Feedback control, electrical | 2 |
| 20100277158 | DELAY TIME MEASUREMENT CIRCUIT AND METHOD - Provided are a delay time measurement circuit and method. Since the delay time measurement circuit and method according to the present invention use a delay chain having a feedback structure, a measurable delay time is not limited. In addition, the number of delay elements constituting the delay chain can be reduced, such that the delay time measurement circuit can be implemented in a small layout area. | 11-04-2010 |
| 20110050206 | METHOD FOR VERIFYING THE BANDWIDTH AND PHASE OF A DIGITAL POWER CONTROL SYSTEM - A method for verifying the bandwidth and phase of a digital power control system according to the present invention includes steps of: A. Disturbance Order Reading in which an A/D conversion unit receives an analog signal order and mix it with existing command components in a digital system unit; B. Phase Delay Compensation in which a phase lead compensator is designed that is based on the different sampling frequencies and time delay parameters of the digital system unit, and the phase lead compensator is added to the digital system unit; and C. System Measuring in which a mixed wave calculation unit and a supply unit are added to the digital system unit to make the analog command signal pass through the digital system unit and the mixed wave calculation unit to the supply unit and to further drive a power circuit. | 03-03-2011 |
| 324085000 |
With frequency conversion | 1 |
| 20100289480 | PHYSICAL QUANTITY DETECTION CIRCUIT - A PLL circuit generates a plurality of oscillated clocks having different phases. A selector selects one of the plurality of oscillated clocks generated by the PLL circuit. A detection circuit detects a physical quantity signal corresponding to the physical quantity given to a physical quantity sensor from a sensor signal received from the physical quantity sensor based on the oscillated clock selected by the selector. | 11-18-2010 |
| Entries |
| Document | Title | Date |
|---|
| 20080224688 | Volumetric Induction Phase Shift Detection System for Determining Tissue Water Content Properties - A method of determining the condition of a bulk tissue sample, by: positioning a bulk tissue sample between a pair of induction coils (or antennae); passing a spectrum of alternating current (or voltage) through a first of the induction coils (or antennae); measuring spectrum of alternating current (or voltage) produced in the second of the induction coils (or antennae); and comparing the phase shift between the spectrum of alternating currents (or voltages) in the first and second induction coils (or antennae), thereby determining the condition of the bulk tissue sample. An apparatus for determining the condition of a bulk tissue sample, having: a first induction coil (or antenna); a second induction coil (or antenna); an alternating current power supply connected to the first induction coil (or antenna), the alternating current power supply configured to generate a spectrum of currents (or voltage) in the first induction coil (or antenna); and a measurement system connected to the second induction coil (or antenna), wherein the measurement system is configured to measure a phase shift difference in the spectrum of currents (or voltages) between the first and second induction coils (or antennae) when the first and second induction coils (or antennae) are positioned on opposite sides of a tissue sample. | 09-18-2008 |
| 20080303509 | PHASE MEASUREMENT APPARATUS, SKEW MEASUREMENT APPARATUS, PHASE MEASUREMENT METHOD, AND SKEW MEASUREMENT METHOD - There is provided a phase measurement apparatus for measuring a phase of a signal under measurement. The phase measurement apparatus includes a sampling section that samples the signal under measurement at timings indicated by a sampling clock supplied thereto, a jitter injecting section that injects jitter to at least one of the signal under measurement which is to be input into the sampling section and the sampling clock, and a phase calculating section that calculates the phase of the signal under measurement based on a result of the sampling performed by the sampling section. | 12-11-2008 |
| 20090146640 | PHASE DIFFERENCE MEASURING DEVICE AND PHASE COMPARISON CIRCUIT ADJUSTING METHOD - A phase difference measuring device according to this invention has an object of shortening the measuring time, and includes a plurality of phase difference measuring circuits ( | 06-11-2009 |
| 20090189596 | SIGNAL MEASURING DEVICE - An interpolated signal generating circuit ( | 07-30-2009 |
| 20090212762 | PHASE DETECTOR SYSTEM - A phase detection system ( | 08-27-2009 |
| 20090284247 | DIGITAL SIGNAL DELAY MEASURING CIRCUIT AND DIGITAL SIGNAL DELAY MEASURING METHOD - A digital signal delay measuring circuit for measuring a delay time of a digital signal of a scan-testable digital circuit inside a device to be tested is provided. | 11-19-2009 |
| 20100007330 | HAND-HELD PHASE-SHIFT DETECTOR FOR SENSOR APPLICATIONS - The invention is directed to a novel phase-shift detector capable of interfacing with an array of sensors. The detector is light-weight, portable and capable of fitting within the palm of a hand. The detector may be used in conjunction with a variety of diagnostic, biosensor and chemical sensor applications. | 01-14-2010 |
| 20100045261 | DESIGN FOR TESTABILITY TECHNIQUE FOR PHASE DETECTORS USED IN DIGITAL FEEDBACK DELAY LOCKED LOOPS - A circuit for testing phase detectors in a delay locked loop is provided. The circuit uses a second phase detector arranged to receive the signals entering a first phase detector. Particularly, the circuit is routed such that a signal entering the D input of the first phase detector is inputted into the clock input of the second phase detector, and a signal entering the clock input of the first phase detector is inputted into the D input of the second phase detector. The circuit is also coupled to a test controller located on-die or at a high volume manufacturing (HVM) tester. | 02-25-2010 |
| 20100072979 | METHOD FOR TESTING A VARIABLE DIGITAL DELAY LINE AND A DEVICE HAVING VARIABLE DIGITAL DELAY LINE TESTING CAPABILITIES - A device and a method for testing a variable digital delay line that includes multiple taps. The method includes providing, an input signal to the variable digital delay line and finding, for each tap out of a group of tested taps of the variable digital delay line, a variable delay unit configuration that provides a delay that is closest to a delay introduced by the tap; wherein the variable digital delay line and the variable delay unit belong to the same integrated circuit. | 03-25-2010 |
| 20100109641 | Semiconductor device, internal circuit control signal measurement circuit, and delay time measurement method - In a semiconductor device manufactured in a semiconductor chip, an internal circuit generates first and second internal circuit control signals which are produced as a delay time measurement start signal and a delay time measurement stop signal, respectively, which are sent to a delay time measurement circuit. The delay time measurement circuit measures a delay time between the start and the stop signals and outputs the delay time. | 05-06-2010 |
| 20100176791 | Method For Correcting The Phase of Electromagnetic Data - Method for identifying, determining and correcting source-related phase errors in data from a controlled source electromagnetic survey by using data from ordinary survey receivers, i.e. without benefit of source monitoring data. Abrupt anomalies indicating source malfunctions are identified ( | 07-15-2010 |
| 20100194378 | SYSTEM FOR PHASE IDENTIFICATION - A phase identification system for identifying the phase of an extra-high- voltage or low-voltage power distribution line is disclosed. The phase identification system compares a reference phase of a transformer substation with a phase of a power distribution line remote from the transformer substation and identifies the phase. The phase identification system includes a reference unit capturing the reference phase from the transformer substation and transmitting the reference phase to a service server, the service server storing the reference phase received from the reference unit for 30 to 60 minutes and externally transmitting the reference phase via a network, the network providing a data communication path between the service server and a local unit, and the local unit capturing the phase from the power distribution line, receiving the reference phase from the service server, and identifying the phase captured from the power distribution line. | 08-05-2010 |
| 20100201343 | PROGRAMABLE DELAY MODULE TESTING DEVICE AND METHODS THEREOF - A data processing device is configured so that, in a test mode of operation, the phase of an output signal of a second programmable delay module (PDM) is based on the phase of the input signal of the first PDM. To test the first and second PDMs, the output signal of the first PDM is set to each of a first set of phases and the corresponding phase of the output signal of the second PDM is compared to determine whether the performance of the first and second PDMs match a specification. Accordingly, the first and second PDMs are qualified based on their relative performance, reducing the need for test structures that consume an undesirably large amount of area. | 08-12-2010 |
| 20100201344 | Method of Measuring Setup Time with Consideration of Characteristic of Absorbing Clock Skew in a Pulse-Based Flip-Flop - A method of measuring setup time measures a first delay time from an input signal to a clock signal and a second delay time from the clock signal to an output signal, and determines a setup time using the first delay time and the second delay time. The method of measuring setup time is used in designing a semiconductor IC including a pulse-based flip-flop circuit. The semiconductor IC designed by using the method of measuring setup time absorbs a clock jitter and allows a time borrowing between adjacent pipelines. | 08-12-2010 |
| 20100219808 | SYSTEM FOR INTELLIGENT AUTOMATED RESPONSE TO LINE FREQUENCY AND VOLTAGE DISTURBANCES BY A CENTRAL CONTROL POINT COMMUNICATION WITH A PLURALITY OF LOAD CONTROL DEVICES - Systems for intelligent automated response to line frequency and voltage disturbances by a central control point communication with a plurality of load control devices. The systems may include a load control device adapted to communicate with one or more energy consuming devices. The load control device may have a load control device firmware adapted to receive and process control directives to change the load of at least one energy consuming device. A central control point may be associated with the building and may be connected to the line power. The central control point may include a circuit adapted to monitor the line power and a central control point firmware adapted to detect the line disturbance. The central control point firmware may be in communication with the load control device firmware and may be adapted to transmit the control directives to the load control device firmware. | 09-02-2010 |
| 20100231195 | MEASUREMENT APPARATUS, REPRODUCTION APPARATUS, AND MEASUREMENT METHOD - A measurement apparatus includes a moving average calculation section and a convergence judgment section. The moving average calculation section calculates a moving average by inputting a phase error between a phase of an input signal and a target phase, that is detected by a phase-locked loop circuit. The convergence judgment section judges that the phase-locked loop circuit is not converged when an absolute value of the moving average is equal to or larger than a first threshold value and judges that the phase-locked loop circuit is converged when the absolute value of the moving average is smaller than the first threshold value. | 09-16-2010 |
| 20100264903 | METHOD AND APPARATUS FOR DETERMINING PEAK PHASE ERROR BETWEEN CLOCK SIGNALS - A peak phase error circuit including phase difference logic and delay and register logic. The phase difference logic provides a pulse difference signal including at least one difference pulse indicative of a timing difference between selected edges of a pair of clock signals. The delay and register logic receives the pulse difference signal and provides a peak phase error value representing peak phase error between the clock signals. The delay and register logic may include a delay line with multiple delay cells and taps coupled in series in which each tap provides an output state of a delay cell. The register logic registers a state of each tap to provide delay bits in response to each trailing edge of the difference pulses. Each delay bit remains set until reset so that the longest pulse difference signal is registered to provide the peak phase error. | 10-21-2010 |
| 20100308792 | BRANCH CURRENT MONITOR WITH CONFIGURATION - A tool for configuring a branch current monitor facilitates mapping the connections of branch circuits to voltage sources in a power distribution panel. | 12-09-2010 |
| 20100321001 | PHASE DETECTING APPARATUS, TEST APPARATUS AND ADJUSTING METHOD - Provided is a phase detecting apparatus that detects a phase difference between signals, comprising a phase comparing section that sequentially delays a second input signal relative to a first input signal, according to a set value, and that compares a phase of the second input signal to a phase of the first input signal each time a relative phase between the input signals changes; and a delay adjusting section that adjusts in advance a delay amount of a signal in the phase comparing section. The delay adjusting section includes a signal generating section that generates a first adjustment signal and a second adjustment signal, which has a period that is shorter than a period of the first adjustment signal by an amount corresponding to the set value, and inputs the first adjustment signal and the second adjustment signal to the phase comparing section as the first input signal and the second input signal, respectively; and an adjusting section that adjusts a delay amount of the phase in the phase comparing section based on the phase comparison result by the phase comparing section between the first adjustment signal and the second adjustment signal. | 12-23-2010 |
| 20110012586 | METHOD FOR DETECTING, IDENTIFYING AND LOCATING PARTIAL DISCHARGES OCCURRING IN A DISCHARGE SITE ALONG AN ELECTRIC APPARATUS - A method for detecting, identifying and locating partial discharges occurring in a discharge site along an electric apparatus comprises the following steps: detecting (1) electrical signals in a detection station; attributing (2) to each detected signal a value of a phase parameter; deriving (3) for each signal at least one shape parameter and one amplitude parameter; separating (4) the set of signals detected into sub | 01-20-2011 |
| 20110068770 | Method for Determining the Offset of a Periodic Signal - A method for determining the offset of a periodic signal is provided, wherein an offset value that is caused by a level change of the periodic signal is suppressed. | 03-24-2011 |
| 20110080159 | Method for Testing the Operation of a Heating Element Used for an Activated Carbon Filter - The invention relates to a method for testing the operation of an electric heating element which is used for heating activated carbon of an activated carbon filter and/or air which is guided through the activated carbon for the regeneration thereof. The heating element has a PTC-characteristic (positive temperature coefficient characteristic). The strength of a current flow through the heating element in a heating phase selected for the operational testing is measured at a point in time or over a time period and is used for the operational testing, in that at least one measured current flow value is compared with a corresponding current flow value to be anticipated during defect-free operation of the heating element, and the heating element is considered to be defective in the event of a deviation which exceeds a predetermined measurement. | 04-07-2011 |
| 20110080160 | ROTATIONAL ANGLE DETECTION DEVICE AND ELECTRIC POWER STEERING SYSTEM - An ECU detects a steering angle that is an absolute angle based on a sine signal and a cosine signal that are output from a steering sensor. The ECU includes a three-phase pulse generator that generates, based on the sine signal and the cosine signal, three-phase pulse signals that have edges corresponding to predetermined rotational angles and that are set in such a manner that the predetermined rotational angles corresponding to the respective edges do not overlap each other and are at regular intervals. A microcomputer has a function as a second rotational angle detector that calculates a steering angle based on the pulse signals. | 04-07-2011 |
| 20110089930 | METHOD FOR DETERMINING AT LEAST ONE FIRST INTERNAL PARAMETER OF A SENSOR - A sensor and method for determining at least one internal parameter for an active sensor in a special mode of operation. The sensor has at least one sensor element, an evaluation circuit, at least two connecting lines, and a changeover module. The sensor is changed over between a normal mode of operation and the special mode of operation by means of the changeover module and is put into the special mode of operation for the purpose of determining the at least one internal parameter. The sensor has an electric offset source which is used in the special mode of operation to at least partially actuate the evaluation circuit on the basis of the supply voltage of the sensor which is applied to the two connecting lines such that the at least one internal parameter of the sensor can be ascertained from the sensor output signal. | 04-21-2011 |
| 20110115468 | RECEIVING APPARATUS, TEST APPARATUS, RECEIVING METHOD, AND TEST METHOD - Provided is a receiving method and a receiving apparatus comprising a multi-strobe generating section that generates a multi-strobe including a plurality of strobes having different phases with respect to a reception signal; an acquiring section that acquires the reception signal using each of the strobes; a detecting section that detects a change position at which a value of the reception signal changes, based on the acquisition result of the acquiring section; and a selecting section that selects, as a reception data value, the value of the reception signal acquired using a strobe at a position shifted by a predetermined phase from the change position. The receiving apparatus may further comprise a reference clock generating section that generates a reference clock having a preset period, and the multi-strobe generating section generates the multi-strobe for each pulse of the reference clock. | 05-19-2011 |
| 20110121815 | MEASURING APPARATUS, PARALLEL MEASURING APPARATUS, TESTING APPARATUS AND ELECTRONIC DEVICE - Provided is a measurement apparatus that measures a signal under measurement, comprising a first oscillation circuit that receives one pulse of the signal under measurement and begins oscillating according to the pulse of the signal under measurement to output a first oscillated signal; a second oscillation circuit that receives one pulse of a reference signal and begins oscillating according to the pulse of the reference signal to output a second oscillated signal having a period that is different from a period of the first oscillated signal; and a first sampling section that samples the first oscillated signal according to a pulse of the second oscillated signal. The first oscillation circuit and the second oscillation circuit each include a control section that selects one pulse; a delay section that delays the pulse; and a loop line that feeds the pulse back to an input terminal of the delay section | 05-26-2011 |
| 20110181269 | APPARATUS AND METHOD FOR IDENTIFYING THE PHASE AND TERMINAL FOR POWER SYSTEM DEVICES - An apparatus and method for identifying the current and voltage phase and terminal for power system devices is described. In one aspect of the present invention, the respective current phase and terminal of two current terminals is identified based on a known phase and known phase angle associated with a third current terminal at the location of the electrical power system. In another aspect of the present invention, the voltage phase and terminal is identified based on a known phase and known phase angle associated with a third current terminal at the location of the electrical power system. In another aspect of the present invention, the respective voltage phase and terminal of three voltage terminals is identified based on known phase and known phase angles associated with first and second current terminals at the location of the electrical power system. | 07-28-2011 |
| 20110199072 | POWER CONTROL SYSTEM AND METHOD - A system and method for controlling an electrical device is provided. The method comprises receiving three phase power from a source, decomposing signals representative of power in each phase of the three phase power to provide a positive-sequence component of each phase and tracking the positive-sequence component of each phase via a phase locked loop and a tracking filter. | 08-18-2011 |
| 20120056612 | Systems and Methods for Phase Compensated Harmonic Sensing in Fly Height Control - Various embodiments of the present invention provide systems and methods for phase compensated harmonic sensing. For example, a circuit for harmonics calculation is disclosed that includes a phase difference estimation circuit and a phase offset compensation circuit. The harmonic calculation circuit is operable to calculate a first harmonic based on a periodic data pattern and a second harmonic based on the periodic data pattern. The phase difference estimation circuit operable to calculate a phase difference between the first harmonic and the second harmonic. The phase offset compensation circuit operable to align the second harmonic with the first harmonic to yield an aligned harmonic. | 03-08-2012 |
| 20120098520 | METHOD AND RELATIVE DEVICE FOR SENSING AMPLITUDE AND PHASE OF AN ELECTRICAL SIGNAL - A method of sensing an amplitude and a phase of a varying electrical signal representing an impedance of an electrically conductive tissue through which an AC stimulation current is forced may include measuring a first amplitude value of the varying electrical signal corresponding to an arbitrary initial phase offset value and assuming the first amplitude value corresponds to the amplitude and assuming the arbitrary initial phase offset value corresponds to the phase. The method may include measuring a second amplitude value of the varying electrical signal at a phase offset different from the phase. The method may further include comparing the second amplitude value with the amplitude, and updating the amplitude and the phase to correspond to one of a maximum and a minimum amplitude value and to a corresponding phase offset. | 04-26-2012 |
| 20120126783 | SELF TIMED CURRENT INTEGRATING SCHEME EMPLOYING LEVEL AND SLOPE DETECTION - Some embodiments of the invention relate to a sense amplifier configured to determine the slope of a bitline charging voltage and to utilize the determined slope in combination with a voltage level sensing scheme to aid in reading data from a memory cell associated with the bitline. In particular, a sense amplifier circuit is configured to determine a slope of a bit line charging voltage and based upon the determined slope to adjust the slope of the bitline voltage (e.g., by adding a dynamic slope dependent current to a memory cell current configured to charge the bitline) provided to a sense amplifier. By adjusting the slope of the bitline voltage, the charging speed of memory cells in a low resistive state (e.g., having a high cell current and therefore a good SNR) can be increased. | 05-24-2012 |
| 20120146621 | VOLUMETRIC INDUCTION PHASE SHIFT DETECTION SYSTEM FOR DETERMINING TISSUE WATER CONTENT PROPERTIES - A method and apparatus of determining the condition of a bulk tissue sample, by: positioning a bulk tissue sample between a pair of induction coils (or antennae); passing a spectrum of alternating current (or voltage) through a first of the induction coils (or antennae); measuring spectrum of alternating current (or voltage) produced in the second of the induction coils (or antennae); and comparing the phase shift between the spectrum of alternating currents (or voltages) in the first and second induction coils (or antennae), thereby determining the condition of the bulk tissue sample. | 06-14-2012 |
| 20120153933 | METHOD AND SYSTEM FOR PRODUCING A SIGNAL WITH A POWER CHANGE DETERMINED BY A PHASE OR FREQUENCY DIFFERENCE BETWEEN TWO SIGNAL SOURCES - A system and method for determining the linearity of a device-under-test combine a first periodic signal and a second periodic signal to produce a combined signal, wherein the second periodic signal has at least one of a phase difference and a frequency difference with respect to the first periodic signal, and applying the combined signal to an input of the device-under-test. The linearity of the device-under-test is determined from an output signal of the device-under-test based on the at least one of the phase difference and frequency difference between the first periodic signal and the second periodic signal. | 06-21-2012 |
| 20120194170 | Load Detection for Switched-Mode Power Converters - In one embodiment, a method for detecting a load in a switched-mode power converter is provided. The switched-mode power converter includes high and low-side power switches which are configured to be driven respectively by high and low-side drive signals to provide a switching voltage. The high and low-side drive signals include a plurality of dead-time periods. The method includes monitoring a waveform of the switching voltage and at least one of the high and low-side drive signals. The monitored waveform of the switching voltage is compared to the monitored waveform of the at least one of the high and low-side drive signals to determine whether the switching voltage is high or low during at least one of the dead-time periods. A current measurement of the load is determined based on whether the switching voltage is high or low during the at least one of the dead-time periods. | 08-02-2012 |
| 20130002233 | CIRCUITS FOR DETECTING AC- OR DC-COUPLED LOADS - An integrated circuit includes an output terminal and a controller having a measurement input coupled to the output terminal, a first output adapted to couple to a current source to control a first current sourced into the output terminal, and a second output adapted to couple to a current sink to control a second current from the output terminal. The controller applies control signals to the first output and the second output to selectively enable the current source and disable the current sink during a first phase of a load detection period and to disable the current source and enable the current sink during a second phase of the load detection period. The controller detects the load coupled to the output terminal if a voltage at the measurement terminal during the first phase is substantially equal to a voltage at the measurement terminal during the second phase. | 01-03-2013 |
| 20130009627 | PHASE DETECTOR - A phase detector ( | 01-10-2013 |
| 20130057253 | SYSTEMS AND METHODS FOR ULTRASONIC POWER MEASUREMENT AND CONTROL OF PHACOEMULSIFICATION SYSTEMS - In one embodiment, a method for determining the voltage current phase relationship of a piezoelectric phacoemulsification handpiece generally includes the steps of obtaining an analog AC voltage signal corresponding to the operating AC voltage of a piezoelectric handpiece along with an analog AC current signal corresponding to the operating AC current of the piezoelectric handpiece. Using reference detection circuits, a digital voltage signal and a digital current signal is produced. A synchronous sample clock is taken that has a frequency that is 2 | 03-07-2013 |
| 20130069627 | SYSTEM AND METHOD FOR WIRELESS REMOTE DISPLAY FOR HIGH VOLTAGE LINE METER - A system for measuring phase attributes of high voltage electrical lines comprises first and second high voltage probes. Each of the probes comprises a sensing element for selectively measuring voltage of a high voltage electrical line, a processing device for detecting zero crossings of the measured voltage and applying a time tag to the zero crossings, and storing samples of the amplitude and time tagged zero crossings. A transceiver transmits storage samples. A user interface device is remote from the first and second high voltage probes and comprises a transceiver for receiving transmitted storage samples. A memory stores received samples of the time tagged zero crossings for the first and second high voltage electrical lines. A processor is operatively associated with the memory for determining phase relationships between the first and second high voltage electrical lines. A display displays the phase relationships. | 03-21-2013 |
| 20130106399 | DETERMINING PROPAGATION DELAY | 05-02-2013 |
| 20130127442 | ELECTRONIC CIRCUIT COMPONENT AUTHENTICITY DETERMINATION METHOD - This invention provides an electronic circuit component authenticity determination method capable of determining whether an electronic circuit component is a component manufactured by an authorized manufacturer. The electronic circuit component is operated under a predetermined condition at the time of manufacturing or initialization of the electronic circuit component. The waveform of power consumption or an electromagnetic wave at the time of the operation is measured and stored as first waveform data. An authenticity determination target electronic circuit component is operated under the predetermined condition. The waveform of power consumption or an electromagnetic wave is measured and temporarily stored as second waveform data. The stored first waveform data is compared with the second waveform data. It is determined that the electronic circuit component is a genuine when the waveform data match. It is determined that the electronic circuit component is a counterfeit product when the waveform data are different. | 05-23-2013 |
| 20130154612 | FOREIGN BODY DETECTING - A method of operating a sensor | 06-20-2013 |
| 20130169265 | VOLTAGE AMPLITUDE DETECTION CIRCUIT, INFORMATION STORAGE DEVICE, COMMUNICATION DEVICE, AND VOLTAGE AMPLITUDE DETECTION METHOD - There is provided a voltage amplitude detection circuit including a first comparison unit configured to compare a voltage amplitude of an input signal with a predetermined voltage and output a comparison result; a first comparison result holding unit configured to hold the comparison result output from the first comparison unit in predetermined periods of a driving clock, and output the held comparison result; and a first comparison result evaluation unit configured to evaluate the comparison result output from the first comparison result holding unit in the predetermined periods of the driving clock and output an evaluation result. | 07-04-2013 |
| 20130187631 | DEVICE FOR DETECTING A LOAD TYPE - A method for detecting a load type is described. The method includes placing an electronic device in a forward phase mode. The method also includes operating a load at a maximum allowable level. The method additionally includes capturing a voltage waveform. The method further includes capturing a current waveform. The method also includes obtaining a voltage zero-cross based on the voltage waveform. The method additionally includes obtaining a current zero-cross based on the current waveform. The method further includes determining the load type based on the voltage zero-cross and the current zero-cross. | 07-25-2013 |
| 20130193953 | Method For Measuring Remote Field Eddy Current Thickness In Multiple Tubular Configuration - In accordance with aspects of the present invention, a method of inspecting a well tubular is disclosed. The method utilizes a probe with a transmitter and detectors spaced from the transmitter by at least twice the diameter of the pipe to be tested. In some cases where multi-tubular structures are tested, the probe can include further detectors spaced from the transmitter by at least twice the diameter of the outer pipes as well. The phase of signals detected by the detectors relative to the transmitter are utilized to detect faults in the pipes. | 08-01-2013 |
| 20130214761 | 3D-IC DIFFERENTIAL SENSING AND CHARGE SHARING SCHEME - The present invention discloses a | 08-22-2013 |
| 20130293217 | SYSTEMS, METHODS, AND APPARATUS FOR DETECTING SHIFTS IN REDUNDANT SENSOR SIGNALS - Certain embodiments of the invention may include systems, methods, and apparatus for detecting shifts in redundant sensor signals. According to an example embodiment of the invention, a method is provided for detecting and indicating a shift shift in redundant sensor signals. The method can include receiving a sensor channel closeness signal for two or more redundant sensors, receiving a spike confidence signal for at least one of the two or more redundant sensors, receiving a spike duration signal for the at least one of the two or more redundant sensors, determining a shift confidence based at least in part on the received sensor channel closeness signal, the received spike confidence signal, and the received spike duration signal, and outputting the shift confidence. | 11-07-2013 |
| 20130314072 | POLARITY DETECTION CIRCUIT - The polarity detection circuit includes a first diode with anode receiving a first phase of the AC power supply voltage and a second diode with anode receiving a second phase, opposite the first phase. The detection circuit further includes a constant-voltage power supply outputting a positive constant voltage. A first reference-voltage output circuit outputs a voltage corresponding to the constant voltage when the AC voltage of the first phase is positive, and outputs a voltage at a cathode of the second diode when the AC voltage of the first phase is negative. The detection circuit also includes a first signal output circuit that compares a first voltage, corresponding to a voltage at the cathode of the first diode, and a voltage output from the first reference-voltage output circuit and that outputs a signal indicative of polarity of the AC voltage having the first phase according to a comparison result. | 11-28-2013 |
| 20130320959 | Power Device Analyzer - A device analyzer for analyzing power devices. An example device analyzer comprises a collector supply to generate supply signal pulses with selected voltage or current levels and a supply signal pulse width at a high current. The supply signal pulses are applied at a collector supply source terminal when DUT is connected to conduct current between the collector supply source terminal and a collector supply common terminal. A supply switch closes or opens the DUT current path in narrow pulses having a narrow pulse width narrower than the supply signal pulses to conduct the supply signal pulses as narrowed sweep signal pulses having the high current capacity of the collector supply current. The supply switch alternatively regulates the current in the current path at constant current levels. Other modules capable of high power test capabilities may also be added. | 12-05-2013 |
| 20140111185 | APPARATUS AND METHOD FOR DETECTING A PHASE SEQUENCE IN A VEHICLE - In at least one embodiment, an apparatus for detecting a phase sequence in a vehicle is provided. The apparatus includes a control module for being operatively coupled to a power grid for receiving an incoming power signal therefrom, the incoming power signal providing a first voltage and a second voltage in a vehicle. The control module is configured to determine a phase difference between the first voltage and the second voltage and to determine a signal frequency of the incoming signal to determine a country type for the power grid. The control module is further configured to control a number of switching devices to generate an output voltage signal based on the phase difference and the signal frequency to charge at least one battery on the vehicle. | 04-24-2014 |
| 20140232373 | METHOD AND DEVICE FOR DETECTING ZERO PHASE COMPONENT - There are provided a method and device for detecting a zero phase component. The device for detecting a zero phase component includes a meter chip of a sequential sampling method, a data acquiring unit configured to acquire sequential data on a plurality of phases from the meter chip, and a zero phase current value calculating unit configured to calculate an instantaneous current value for fault detection by summing instantaneous current values for each phase from the acquired sequential data, and calculate a zero phase current value using the calculated instantaneous current value for fault detection. | 08-21-2014 |
| 20140320110 | MEASURING APPARATUS, MEASURING METHOD, AND MEASURING PROGRAM - A measuring apparatus for measuring a characteristic of a crystal unit includes an input unit, a measuring unit, a storage unit, and a calibrating unit. The input unit is configured to input a measurement signal into the crystal unit. The measuring unit is configured to measure the characteristic of the crystal unit based on an output signal output from the crystal unit with respect to the measurement signal. The storage unit is configured to associate calibration data with a measuring condition to measure the characteristic of the crystal unit, and store the associated data. The calibration data is generated based on a measurement result measured by the measuring unit with connecting a short-circuit element instead of the crystal unit. The calibrating unit is configured to calibrate the characteristic of the crystal unit measured by the measuring unit based on the calibration data. | 10-30-2014 |
| 20140368185 | PHASE-LOCKED WEB POSITION SIGNAL USING WEB FIDUCIALS - Approaches for enhancing web position determination involve phase locking a web movement encoder signal to a sensed web fiducial signal. Fiducials disposed along a longitudinal axis of a substrate are sensed and corresponding sensor signals are generated. An estimated web position is provided by one or more encoder signals. The phase difference between the sensor signals and the encoder signals is calculated and the web position error is determined based on the phase difference. The web position error signal can be fed back to adjust the encoder signals which improves the accuracy of the web position determination. | 12-18-2014 |
| 20150061641 | METHOD FOR DETERMINING THE POSITION OF THE ROTOR OF AN ELECTRICAL MACHINE - A method for determining the position of the rotor of an electric machine having multiple phases in relation to the stator. The change Δi in the time derivative I of the current I flowing through at least one of the power inputs is determined. The change Δi is caused by a change ΔU in the potential U on at least one of the power inputs of the electric machine. A measurement signal that is representative of a position of the rotor is determined from multiple simultaneously or successively determined changes Δi. | 03-05-2015 |
| 20150084615 | IDENTIFYING A POSITION OF A BRUSHLESS DC MOTOR - A method for identifying a position of a multi-phase brushless motor includes applying a plurality of detection voltage pulses to the motor, each detection voltage pulse corresponding to a respective driving phase of the motor, measuring a time period associated with a current reaching a predetermined current limit for each applied detection voltage pulse, and identifying a driving phase associated with a shortest time period for the current to reach the predetermined current limit. | 03-26-2015 |
| 20150084616 | SYSTEM AND METHOD OF MEASURING POWER PRODUCED BY A POWER SOURCE - Some embodiments relate to a system for measuring power produced by a power source. The system includes a first voltage sensor for sensing a first voltage difference between a first voltage and a second voltage and a second voltage sensor for sensing a second voltage difference between a third voltage and the second voltage. The system further includes a first current sensor for sensing a current difference between a first current and a second current, and a second current sensor for sensing a current difference between a third current and the second current. The system further includes a power measuring device that determines the power produced by the power source using the first and second voltage differences and the first and second current differences. | 03-26-2015 |
| 20150145500 | A.C. POWER MEASURING APPARATUS AND A.C. POWER MEASURING METHOD - An A.C. power measuring apparatus includes a voltage detecting unit that detects voltage waveforms of each of phases of a set of insulated cables for supplying a three-phase A.C. power to a load, by performing a contactless measurement by electrostatic capacitance coupling, and a current detecting unit that detects current waveforms of the set of insulated tables, by performing a contactless measurement by electromagnetic induction coupling. The apparatus further includes a processing unit that computes a power to be supplied to the load, based on line-to-line voltage waveforms, the current waveforms, and prescribed voltage values, by normalizing the voltage waveforms of each of the phases so that as amplitude ratio of the voltage waveforms becomes in accordance with a grounding type of the three-phase A.C. power, and obtaining the line-to-line voltages of the set of three insulated cables based on the normalized voltage waveforms of each of the phases. | 05-28-2015 |
| 20150355248 | POWER MEASUREMENT DEVICE - A power measurement device for sampling current or voltage signals of a power system to produce a 1-bit delta-sigma bitstream. The power measurement device includes a frequency locked loop for determining the power system frequency directly from the 1-bit delta-sigma bitstream. The frequency locked loop includes a 1-bit rotate CORDIC that is configured to produce difference signals having a multi-bit word for each bit of the 1-bit delta-sigma bitstream, and a phase error calculator that determines the difference between the phase of the power system frequency and a phase ramp generated from a frequency measurement value in a frequency register. The phase error calculator feeds back a phase correction signal to the frequency register to lock the frequency measurement value to the power system frequency. | 12-10-2015 |
| 20160069940 | POWER DETECTOR AND ASSOCIATED METHOD FOR ELIMINATING THE DIFFERENCE OF I-V PHASE DIFFERENCE BETWEEN TRANSMISSION PATH AND DETECTION PATH - A power detector for detecting an output power of a power amplifier is provided. The power amplifier is used to transmit signal power to the antenna. The power detector includes a phase shifter, a multiplier and a calibration unit. The phase shifter sequentially applies a plurality of candidate phase calibration amounts to the output voltage of the power amplifier to generate a plurality of adjusted signals with different phases in a calibration mode. The multiplier sequentially mixes the replica current and each of the plurality of adjusted signals, to generate a plurality of analog signals with different phases. The calibration circuit determines a target phase calibration amount of the phase shifter from the candidate phase calibration amounts according to the plurality of analog signals. | 03-10-2016 |
| 20160077165 | Time Based AC Line Detection - A power supply detection system and method for determining the AC mains voltage range when a device (e.g., LED based bulbs) is indirectly connected to the AC mains and the device does not receive the complete sinusoidal AC mains signal. | 03-17-2016 |
| 20160109497 | Electrical Phase Identification - An electrical phase (e.g., a phase from among three-phase power) connected to an electrical meter may be determined. In one example of the techniques, changes in energy or power (e.g., a derivative or differences) may be determined based at least in part on measurements from each of a plurality of meters. Changes in energy or power may be determined based at least in part on electrical transmissions measured at each of the phases of a feeder. A meter may be selected from among the plurality of meters. For each of the plurality of electrical phases, the changes in energy or power measured by the meter may be compared or correlated to the changes in energy or power measured at the feeder. A phase that is connected to the meter may be determined, from among the plurality of electrical phases, based at least in part on the comparisons or correlations. | 04-21-2016 |
| 20160146869 | APPARATUS ENABLING USE OF A REFERENCE DIODE TO COMPARE AGAINST A DEVICE UNDER TEST IN RELATIVE AMPLITUDE AND PHASE MEASUREMENTS - Embodiments of the invention include methods and devices for determining a phase angle offset between a phase angle of a local oscillator relative to a phase angle of a signal input of a Device Under Test (DUT). Some embodiments include a laser source and an optical phase adjustor, which may be embodied by a loop stretcher structured to controllably stretch a length of fiber optic cable, driven by a phase adjust driver. In other embodiments the phase angle offset information is conveyed to an oscilloscope for internal compensation. | 05-26-2016 |
| 20160154040 | Electrical Network Topology Determination | 06-02-2016 |
| 20180022378 | CONTROL DEVICE FOR AC ROTARY MACHINE AND CONTROL DEVICE FOR ELECTRIC POWER STEERING | 01-25-2018 |
| 20220137103 | DIFFERENTIAL CURRENT SENSOR - Methods and apparatus for measuring a current difference between at least two current traces in a circuit board. Each wire or trace generates a magnetic field which may then be measured by at least one magnetic field sensing element positioned on an integrated circuit, such as a current sensor integrated circuit or a differential magnetic field sensor integrated circuit. An output disconnect signal may be provided from the current sensor or differential magnetic field sensing integrated circuit to indicate that a current difference above a predetermined threshold exists in the two or more current traces. | 05-05-2022 |
