| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 324130000 | Self-calibration | 20 |
| 20090051348 | SELF-CALIBRATING FILTER - Techniques for self-calibrating filtering circuits with feedback are described herein. | 02-26-2009 |
| 20090219010 | CALIBRATING SIGNALS BY TIME ADJUSTMENT - A signal processing device having an adjustment unit for adjusting a time duration of each of a plurality of signals individually in accordance with an amplitude of the respective signal to thereby generate calibrated signals, and a combining unit for combining the calibrated signals. | 09-03-2009 |
| 20090256549 | CONTROLLING METHOD OF CALIBRATING THE AIR-CORE POINTER ASSEMBLY AND DEVICE THEREOF - A controlling method and a device are disclosed to calibrate a pointer assembly of an air-core meter. The pointer assembly of the instrument includes a calibrating magnet, a cosine coil, a sine coil and a pointer. According to the polarity of the return-to-zero magnetic field established by the calibrating magnet, a compensating voltage is imposed on the cosine coil or the sine coil or both under either a voltage driving mode or a current driving mode. The compensating voltage establishes a compensating magnetic field to cancel the return-to-zero magnetic field. Therefore, without modifying the structure of the pointer set, the pointer has good linearity and is not affected by the calibrating magnet. | 10-15-2009 |
| 20090284250 | Self calibrating current sensor - A self-calibrating current sensor for sensing the state of the current passing through a load line enclosed within a housing comprises a sensor disposed adjacent the load line for sensing a current passing through the load line, the sensor having an output at which a signal indicative of the level of current passing through the load line is present, the sensor being positioned with the housing, a binary input circuit configured to generate at least one binary signal, the binary input circuit being configured to change the level of the at least one binary signal without the need of opening the housing, and a controller circuit having a first input coupled to the output of the sensor for receiving the signal indicative of the level passing through the supply line and having a second input coupled to the binary input circuit for receiving the at least one binary signal, the controller being configured to provide a signal indicative of the status of the current in the load line on an output. A method of calibrating a current sensor is also provided. | 11-19-2009 |
| 20100148757 | METHOD OF CALIBRATING AN INSTRUMENT, A SELF-CALIBRATING INSTRUMENT AND A SYSTEM INCLUDING THE INSTRUMENT - An instrument including a device, a transducer and a calibration module is disclosed. The device produces a reference time and/or a reference frequency. The transducer converts the reference time and/or the reference frequency to a reference signal. The calibration module adjusts an output signal generated by the instrument and/or a result of a measurement taken by the instrument, based on the reference signal. A system including the instrument and a method of calibrating the instrument are also disclosed. | 06-17-2010 |
| 20120286771 | METHODS FOR CALIBRATING AN ARRAY OF CHEMICALLY-SENSITIVE SENSORS - Methods and apparatus relating to very large scale FET arrays for analyte measurements. ChemFET (e.g., ISFET) arrays may be fabricated using conventional CMOS processing techniques based on improved FET pixel and array designs that increase measurement sensitivity and accuracy, and at the same time facilitate significantly small pixel sizes and dense arrays. Improved array control techniques provide for rapid data acquisition from large and dense arrays. Such arrays may be employed to detect a presence and/or concentration changes of various analyte types in a wide variety of chemical and/or biological processes. In one example, chemFET arrays facilitate DNA sequencing techniques based on monitoring changes in hydrogen ion concentration (pH), changes in other analyte concentration, and/or binding events associated with chemical processes relating to DNA synthesis. | 11-15-2012 |
| 20130207643 | PROBE SYSTEM WITH COMPENSATING NETWORK - A probe system for registering a differential input signal has a first input network, which is supplied with a first component of the differential input signal in order to generate a first intermediate signal, and a second input network which is supplied with a second component of the differential input signal in order to generate a second intermediate signal. A differential amplifier for the amplification of the difference between the intermediate signals (Ip, In) is arranged in the signal flow direction downstream of the input networks. At least one compensation network is used to compensate the influence of the input networks and is arranged at the output end of the differential amplifier or in a feedback path connecting an output to an input of the differential amplifier. | 08-15-2013 |
| 20130278244 | SYSTEMS AND METHODS FOR ELIMINATING MEASUREMENT ARTIFACTS OF EXTERNAL QUANTUM EFFICIENCY OF MULTI-JUNCTION SOLAR CELLS - A pulsed voltage bias method and/or pulsed light bias method may be used to reduce, minimize, and/or eliminate external quantum efficiency measurement artifacts of multi-junction solar cells, for example artifacts caused by the shunt effect. In this manner, multi-junction solar cells may be designed and constructed with improved performance, efficiency, and the like. | 10-24-2013 |
| 20130285646 | Current Measurement For An Electric Heater - The invention relates to a method for measuring a current or voltage output quantity of a switched-mode power supply circuit (H), referred to as a chopper circuit, of period T and of cyclic ratio α, belonging to the interval ]0; 1[, such that, at each period, the supply current is non-zero during an “ON” phase of duration αT, and zero during an “OFF” phase of duration (1−α)T. The measurement method includes the following steps: measuring the value G | 10-31-2013 |
| 20140103907 | CALIBRATION MODULE FOR A TESTER AND TESTER - A calibration module for a tester, for testing a device under test, includes a pair of RF-channel terminals, a calibration device, a pair of measurement terminals and a mode selector. The pair of RF-channel terminals is configured to send or receive measurement signals to or from an RF-channel of the tester. The calibration device is configured to perform a calibration of the RF-channel based on the measurement signals sent to, or received from, the RF-channel. The pair of measurement terminals is configured to send or receive measurement signals to or from the device under test. The mode selector is configured to connect, in a calibration phase, the pair or RF-channel terminals to the calibration device for calibrating the RF-channel and to connect, in a measurement phase, the pair of RF-channel terminals to the pair of measurement terminals for routing measurement signals from the RF-channel to the device under test or vice versa. | 04-17-2014 |
| 20140253101 | SYSTEM AND METHOD OF MEASURING REAL-TIME CURRENT - A system and method of measuring real-time current is disclosed. The method includes calibrating a voltage measurement device. Calibrating includes measuring a real-time voltage difference between a first measurement node located proximate a first connector on a motherboard and a second measurement node located proximate a second connector on a power supply unit (PSU), the first and the second connectors coupled to provide power to the motherboard. Calibrating further includes averaging the real-time voltage difference for a plurality of measurements; computing a resistance of the coupling based at least on a long-duration averaged current from the PSU and the averaged real-time voltage difference, the resistance varying over time; and reporting the resistance of the coupling to the voltage measurement device. The method also includes measuring a real-time current of the PSU at the voltage measurement device based at least on the resistance of the coupling and the real-time voltage difference. | 09-11-2014 |
| 20140327431 | VOLTAGE DETECTION DEVICE - A voltage detection device controls operation of system main relays to change an applied voltage supplied to detection circuits. An error of each of the detection circuits is corrected on the basis of a detection value of each of the detection circuits when the applied voltage is changed. In particular, an offset value is corrected on the basis of a detection value of each of the detection circuits when the system main relays and booster switches are controlled so that a voltage of a high voltage battery supplied to each of the detection circuits becomes zero. A gain error is further corrected on the basis of a detection value of each of the detection circuits when the system main relays and the booster switches are controlled so that the applied voltage supplied to each of the detection circuits becomes equal to the voltage of the high voltage battery. | 11-06-2014 |
| 20150022184 | CURRENT SENSE CIRCUIT WITH OFFSET CALIBRATION - A switching device is controlled by a microprocessor to selectively configure the circuit between a current measurement mode and a calibration mode. When the switch is set to the “on” state, the circuit acts as a normal prior art circuit, with the output V | 01-22-2015 |
| 20150301148 | Method for Checking an Electrical Current Measurement, Circuit for Carrying Out the Method, Battery and Motor Vehicle - A method for checking an electrical current measurement includes a first step of measuring a current to be measured I | 10-22-2015 |
| 20150323570 | Input Current Compensation during Current Measurement - A current measurement circuit may include unbuffered inputs, and the current may be sampled directly from the input pins. The input current created from each sample may be cancelled by injecting opposite charge on the subsequent sample. This direct sampling from the pins increases the common mode input range of the sense path without having to build high linearity rail-to-rail input buffers, hence lowering cost and power consumption of the current measurement path. It also allows for high-impedance input sampling. The measurement circuit may include multiple sampling stages, with a first sampling stage implemented as a switched-capacitor based circuit. A compensator circuit coupled in a feedback loop from the output of the first sampling stage to the input pins may be operated to provide the equivalent charge back to the input pins every cycle to cancel the input current required to charge the sampling capacitors of the first sampling stage. | 11-12-2015 |
| 20150323572 | SYSTEM AND METHOD OF MEASURING REAL-TIME CURRENT - A system and method of measuring real-time current is disclosed. The method includes calibrating a voltage measurement device. Calibrating includes measuring a real-time voltage difference between a first measurement node located proximate a first connector on a motherboard and a second measurement node located proximate a second connector on a power supply unit (PSU), the first and the second connectors coupled to provide power to the motherboard. Calibrating further includes averaging the real-time voltage difference for a plurality of measurements; computing a resistance of the coupling based at least on a long-duration averaged current from the PSU and the averaged real-time voltage difference, the resistance varying over time; and reporting the resistance of the coupling to the voltage measurement device. The method also includes measuring a real-time current of the PSU at the voltage measurement device based at least on the resistance of the coupling and the real-time voltage difference. | 11-12-2015 |
| 20150346311 | POWER MEASURING DEVICE WITH INTERNAL CALIBRATION OF DIODE DETECTORS - A measuring device for measuring a power of a measurement signal comprises an analog-processing unit ( | 12-03-2015 |
| 20150346312 | METHOD FOR SETTING UP A CURRENT SENSOR - A method for setting up a current sensor having an internal resistance which is dependent on the current which is to be measured, wherein the internal resistance is set to a setpoint voltage drop as part of a regulation of an actual voltage drop across the current sensor, including calibration or checking the plausibility of operation of the current sensor based on a characteristic curve, in which the current which is to be measured is compared to a variable which is dependent on the internal resistance or to the internal resistance. | 12-03-2015 |
| 20160054422 | System and Method for Providing an Accurate and Cost-Effective Current Sensor Calibration - Systems and methods for calibrating on-die analog current sensors are disclosed. The methods can be routinely applied to perform a calibration such as during a system initialization or boot procedure or during other times when the system is in a sleep or power saving mode of operation. The systems determine a leakage current in the device under present environmental conditions. A baseline load current determined under the present temperature and input voltage is retrieved and used to determine a total leakage current. A reproducible and stable dynamic load is controllably applied to provide a known current to the on-die analog current sensor. A third mechanism permits repeatable adjustments to the known current that span the operational range of the on-die integrated current sensor. The responsiveness of the disclosed mechanisms ensures that temperature induced leakage does not increase significantly during a current sensor calibration. | 02-25-2016 |
| 20160109897 | CONTROL SYSTEM WITH ALWAYS ON CALIBRATION AND TEST AND CALIBRATION AND TEST CIRCUIT - A continuous, always on, high accuracy AC reference signal is added to an AC voltage of interest to calibrate the AC voltage of interest. The AC reference voltage has a first frequency. The AC voltage of interest has a second frequency. A control system having calibration. | 04-21-2016 |
