Class / Patent application number | Description | Number of patent applications / Date published |
324207120 | Compensation for measurement | 50 |
20080204003 | Method and Device for Compensating for Temperature During a Recording of Rotation Angles with a Plunger Core - The invention relates to a device and to a method for contactlessly recording rotation angles of a rotating element, with a plunger core and with a coil at least partially surrounding the plunger core. The plunger core and the coil move relative to one another in an axial direction according to the rotational motion of the rotating element and causes a change in a coil inductivity of the coil. The inventive device and the inventive method are characterized in that compensating means are provided, which at least partially compensate for the influence of a changing temperature upon the coil inductivity. | 08-28-2008 |
20080284416 | POSITION DETECTION UTILIZING A ROTARY ARRAY OF MAGNETIC SENSORS WITH IRREGULAR SPACING BETWEEN SENSING ELEMENTS - A magnetoresistive sensor system includes a plurality of chip carriers, such that each integrated circuit among the plurality of chip carriers is associated with a respective magnetoresistive sensing components. A plurality of magnetoresistive sensing components can be arranged in a rotary array, wherein each magnetoresistive component among the plurality of magnetoresistive components is associated with a respective integrated circuit among the plurality of chip carriers and wherein the plurality of magnetoresistive sensing components comprises sensing components that are spaced irregular from one another in order to optimize the performance of the rotary array and meet requirements of a particular magnetoresistive sensing application. | 11-20-2008 |
20080309326 | Electromagnetic Tracking Method and Apparatus for Compensation of Metal Artifacts Using Modular Arrays of Reference Sensors - An electromagnetic tracking method includes generating an electromagnetic field ( | 12-18-2008 |
20110248707 | Position Detector and Position Detection Method - A position detector having a plurality of sensor units is used. Each of the sensor units is configured to determine positions. The sensor units are selectively used for outputting positions of a moving object. Positional outputs are generated by combining outputs from a plurality of the sensor units in a segment where the plurality of sensor units output positions together, for allowing the positional outputs to change continuously from a start to an end of the segment. | 10-13-2011 |
20120146625 | SENSOR ARRANGEMENT - The invention relates to a sensor arrangement for detecting at least one of the movement and the position of two components of an assembly, which are located close to each other or are disposed one inside the other and can be moved relative to each other, said sensor arrangement comprising at least one first sensor for detecting at least one of the movement and the position of the one component and a second sensor for detecting at least one of the movement and the position of the other component, the sensors functioning according to different measuring principles without affecting each other mutually. | 06-14-2012 |
20120256619 | RELATIVE ANGLE DETECTION DEVICE, ROTATION ANGLE DETECTION DEVICE, RELATIVE ANGLE DETECTION METHOD, AND ROTATION ANGLE DETECTION METHOD - Disclosed is a relative angle detection device for detecting a relative angle between a first rotary shaft and a second rotary shaft, the relative angle detection device being provided with a first magnetic field sensing unit which outputs a value according to a magnetic field of a magnet, a second magnetic field sensing unit which outputs a value according to the magnetic field of the magnet and outputs a value different from the output value of the first magnetic field sensing unit even if being placed in the same magnetic field as that of the first magnetic field sensing unit, a correction unit which corrects one output value out of the output value of the first magnetic field sensing unit and the output value of the second magnetic field sensing unit in accordance with an amplitude ratio between magnetic field components orthogonal to each other in the magnetic field of the magnet, and a computing unit which computes the relative angle between the first rotary shaft and the second rotary shaft on the basis of the one output value corrected by the correction unit and the other output value different from the one output value. Consequently, a technique capable of detecting the relative rotation angle with high accuracy is provided even if magnitudes of amplitudes of magnetic field components orthogonal to each other in the magnetically sensitive surface of the magnetic field sensing unit are different from each other. | 10-11-2012 |
20120326707 | Environmental Noise Reduction For Magnetometry - A magnetic signal noise reduction and detection system has inputs configured to receive data from a first total field scalar magnetometer, data from a vector magnetometer, and data from a position, velocity and heading sensor, a signal processor configured with a pre-processor system, an adaptive noise cancellation system and a detection system, the pre-processor system configured to carry out initial processing of data received. The pre-processor is configured to convert data to the frequency domain and pass the converted data to the adaptive noise cancellation system. The adaptive noise cancellation system is configured to carry out multivariate regression on the converted data to reduce detected noise. The detection system is configured to detect magnetic anomalies and output information in real time about the magnetic anomalies to a user interface. | 12-27-2012 |
20130002242 | BINARIZATION CIRCUIT FOR BINARIZING DETECTION SIGNAL REPRESENTING ROTATION OR MOVEMENT OF OBJECT - A differential amplifier generates an offset correction signal based on a rotation detection signal from a rotation detector apparatus and an offset signal. A comparator compares the offset correction signal with a threshold voltage, and outputs a binarized signal representing the comparison result. An average value signal generator circuit generates an average value signal representing the average value of the offset correction signal. The offset signal generator circuit generates the offset signal so that the signal voltage of the average value signal has a voltage value between a threshold voltage and a threshold voltage. | 01-03-2013 |
20130141081 | METHOD AND APPARATUS FOR SENSING MAGNETIC FIELDS - A method for detecting magnetic fields, particularly for detecting the position of objects with a preferably oblong, soft-magnetic element, which is connected to electronics, with via the electronics the impedance of the soft-magnetic material is measured, characterized in that a magnetic field is used in which by the position of an object which is located in an arrangement with the soft-magnetic material the magnetic field develops at the location of the soft-magnetic material, with the magnetic permeability μ of the soft-magnetic material adjusting, depending on the magnetic field and thus the position of the object. A respective device serves for applying the method according to the invention. | 06-06-2013 |
20130147467 | SENSOR ASSEMBLY AND METHOD FOR DETERMINING A SPATIAL POSITION OF A FIRST PART RELATIVE TO A SECOND PART - A sensor assembly for determining a spatial position of a first part relative to a second part has at least one magnet disposed on the first part. The magnet generates a magnetic field that extends to the second part. The sensor assembly further has a pair of magnetic field sensors arranged at a spatial distance from each other on the second part. The magnet is positioned in an interval defined by the spatial distance between the magnetic field sensors. The magnetic field sensors each produce an output signal depending on the magnetic field. The output signals of the two magnetic field sensors are combined to form a common sensor signal related to the spatial position of the first part relative to the second part. The output signals of the two magnetic field sensors essentially represent a direction of the magnetic field at the location of the respective magnetic field sensors. | 06-13-2013 |
20130154622 | MAGNETIC LINEAR POSITION SENSOR - A magnetic linear position sensor includes an array of N number of magnets. The array of magnets is distributed along a line to form a magnetic field relay along the line. The sizes and positions of the magnets in the array of magnets are symmetric along the line, and the size of the magnets decreases from the sides of the array of magnets towards the center of the array of magnets. The magnetic linear position sensor further includes a magnetic field sensor spaced apart and positioned above the array of magnets. The magnetic field sensor moves back and forth over the array of magnets to sense the magnetic field of the array of magnets. | 06-20-2013 |
20130176018 | LINEAR POSITION SENSOR WITH ANTI-ROTATION DEVICE - A sensor used to sense the position of an attached movable object. The sensor can be mounted to a pneumatic actuator. The sensor includes a housing that has a pair of cavities or pockets separated by a wall. A magnet carrier is positioned within one of the cavities and a magnet is coupled to the magnet carrier. The magnet carrier is coupled to the moveable object. A magnetic sensor is positioned in the other of the cavities. The magnetic sensor generates an electrical signal that is indicative of a position of the movable object. | 07-11-2013 |
20130193955 | Locator - A locator for detecting an article includes a push-pull measurement bridge configured to actuate a first and a second electromagnetic device in a variable ratio. Depending on the actuation the first electromagnetic device generates an alternating electromagnetic field in the region of the article. The locator further includes a comparator for detecting the article, should the variable ratio differ by more than a predetermined amount from a predetermined ratio. | 08-01-2013 |
20130229174 | Proximity Sensor and Method For Determining The Proximity To An Electrically Conductive Body - The invention relates to a proximity sensor and a method for determining the proximity to an electrically conductive body. By means of a transmitting arrangement, to this end an alternating magnetic field is transmitted at a selected frequency an alternating magnetic field registered by a receiving arrangement. Moreover, frequencies of the registered alternating magnetic field, which are outside a predefined frequency band comprising the selected frequency and have an amplitude value above a predefined threshold value, are detected by means of a detection means. In a control logic, by means of a blocking circuit, frequencies of a predefined frequency band comprising the detected frequency or a plurality of predefined frequency bands comprising in each case one of the detected frequencies, are defined as blocked frequencies. Moreover, a frequency following the respective selected frequency and different from the selected frequency and the blocked frequencies, denoted hereinafter as the following frequency of the respectively selected frequency, is defined in a selection controller. By means of a time control of the control logic, the following frequency of a selected frequency is continuously selected as a newly selected frequency for a new time window following immediately after or chronologically spaced apart from the selected time window. | 09-05-2013 |
20130249536 | Motion Sensor, Method, and Computer-Readable Storage Medium Providing a Motion Sensor with a Validated Output Signal From the Motion Sensor - A motion sensor has an output protocol processor configured to provide a validated output signal after a determined time period, wherein the determined time period is extended if a vibration is detected. | 09-26-2013 |
20130271118 | STROKE AMOUNT DETECTION DEVICE - A stroke amount detection device includes a yoke, a magnetic flux generation section, and a magnetism detection section. The yoke has a protruding section that protrudes to outside the yoke. The magnetic flux generation section is located in the yoke. The magnetism detection section is disposed between the magnetic flux generation section and the protruding section. The magnetism detection section is disposed at a fixed position with respect to the magnetic flux generation section. The magnetism detection section outputs a signal in accordance with a magnetic flux density generated due to a relative movement of the yoke with respect to the magnetism detection section. | 10-17-2013 |
20130278246 | Bias Field Generator and Method - A bias field generator can provide a magnetic bias field for a magnetic sensor. The bias field generator includes a body with magnetic or magnetizable material. A recess is formed in the body. The recess is adapted to a package of the magnetic sensor. | 10-24-2013 |
20130293223 | TECHNIQUES FOR CALIBRATING A LINEAR POSITION SENSOR - Techniques are described for sensing a position of an object located within an enclosure over a position range. The techniques include generating an expected output signal of each of a plurality of magnetic field sensors disposed along an outer surface of the enclosure, receiving actual output signals from the sensors, wherein each actual output signal indicates a relative proximity of a magnetic target coupled to the object to the corresponding sensor. The techniques further include superimposing the expected output signal over the actual output signals, and iteratively shifting the expected output signal over position relative to the actual output signals and comparing the shifted expected output signal to the actual output signals, until the expected output signal compared to the actual output signals corresponds to a substantially minimized error parameter. The position of the object may then be determined based at least in part on the shifted expected output signal. | 11-07-2013 |
20130314077 | DISPLACEMENT MEASUREMENT DEVICE - The displacement measurement device according to the present invention includes: a metal object movable in a moving direction within a moving plane; a measurement coil arranged such that an opposite area of a measurement coil surface opposite to the moving plane is varied with a movement of the metal object; and a correction coil arranged such that an opposite area of a correction coil surface to the moving plane is not varied irrespective of the movement of the metal object. The measurement coil and the correction coil are arranged such that the measurement coil surface and the correction coil surface are not overlapped with each other with regard to a plane parallel to the moving plane but a range occupied by the measurement coil in a coordinate axis along the moving direction and a range occupied by the correction coil in the coordinate axis are overlapped with each other. | 11-28-2013 |
20130328550 | MAGNETIC SENSOR ARRANGEMENT - A magnetic sensor arrangement for determining information indicative of characteristics of a mechanical component has a first magnetic sensor to sense a signal associated with a periodic changing magnetic field generated by relative movement of the mechanical component and the magnetic sensor arrangement, a second magnetic sensor to sense that signal, wherein the first sensor is arranged a fixed distance from the second sensor, and a determination unit coupled to the first and second sensors to receive output signals of the first and second sensors. The output signal of the first sensor is phase-shifted to the output signal of the second sensor, to compare the output signals for determining the absolute phase of the signal associated with the periodic changing magnetic field, and to determine information indicative of characteristics of the mechanical component based on the determined absolute phase of the signal associated with the periodic changing magnetic field. | 12-12-2013 |
20130335069 | Magnetic Field Sensors and Related Techniques That Can Provide Self-Test Information in a Formatted Output Signal - A magnetic field sensor can provide an output signal indicative of a passing condition or a failing condition of the magnetic field sensor. The output signal has one of a variety of output signal formats. | 12-19-2013 |
20140028294 | Magnetic Out-of-Axis Angle Sensing Principle - The present disclosure relates to a magnetic angle sensor module having first magnetic polewheel comprising a first number of poles and a second magnetic polewheel comprising a second number of poles greater than the first number. First and second magneto-resistive sensors are located around the first polewheel at a first angular position and a second angular position, respectively. The first and second magneto-resistive sensors collectively generate sensor signals corresponding to a measured angle of the first polewheel, while the third magneto-resistive sensor generates a third sensor signal corresponding to a measured angle of the second polewheel. A signal processor receives the first and third sensor signals and operates an algorithm that determines a position within a signal curve of the second polewheel from the first sensor signal and that determines an enhanced angle from the position within the signal curve and the third sensor signal. | 01-30-2014 |
20140035564 | DISPLACEMENT SENSOR, APPARATUS FOR DETECTING DISPLACEMENT, AND METHOD THEREOF - Disclosed herein are a displacement sensor and a displacement detection apparatus and method. The displacement detection apparatus according to an embodiment of the present invention includes a receiving unit for receiving a plurality of receiver signals dependent on displacement of a coupler element, an acquisition unit for acquiring information about the displacement of the coupler element and information about a gap between the coupler element and a transmitting coil or the plurality of receiver coils by using the plurality of receiver signals, and a compensation unit for compensating for the acquired displacement information using the acquired gap information. The acquisition unit acquires the displacement information of the coupler element using one of the plurality of receiver signals, and acquires a compensation signal, independent of the displacement of the coupler element including the gap information, using remaining receiver signals. | 02-06-2014 |
20140084905 | METHOD OF ROBUST POSITION MEASUREMENT - A method of improving linear position sensing of clutch actuators with magnetic field sensors utilizes a dedicated magnetic field sensor solely to detect the ambient magnetic field. Typical three position hydraulic clutch actuators include a pair of active magnetic field sensors, one of such active sensors associated with each of a pair of pistons in such actuator and an adjacent pair of permanent magnets, one of such magnets associated with each of such pistons. The invention provides an additional magnetic field sensor disposed proximate the active magnetic field sensors which senses the surrounding (stray, background or parasitic) magnetic field proximate the active magnetic field sensors and provides a signal to an electronic circuit or software which actively and in real time corrects the signals from the active magnetic field sensors by cancelling out the magnitude of the stray magnetic field as detected by the additional sensor. | 03-27-2014 |
20140139207 | STEERING SYSTEM - A steering system includes a steering shaft an electric motor that assists a steering component; a torque detection device that generates a first detection signal according to a steering torque; and a compensation sensor that generates a second detection signal according to a magnetic flux around the steering shaft and its surrounding structure. In the steering system, an output signal, in which an influence of the magnetic field around the steering shaft and its surrounding structure is reduced, is generated based on a signal correction computing equation based on information on correlation between the first detection signal and the second detection signal. Then, in the steering system, the electric motor is driven based on the output signal. | 05-22-2014 |
20140167745 | CORRECTING AND/OR PREVENTING ERRORS DURING THE MEASUREMENT OF COORDINATES OF A WORKPIECE - An arrangement measures coordinates of a workpiece and/or machines the workpiece. The arrangement has a first part and a second part that can be moved relative to the first part. The relative mobility of the first and second parts is specified in addition to a possible mobility of a probe that is optionally additionally fixed to the arrangement. The mobility of the probe is specified by a deflection of the probe from a neutral position during a mechanical probing of the workpiece for the purpose of measuring the coordinates. A measuring body is arranged on the first or second part, and at least one sensor is arranged on the other part, i.e. on the second or first part. The sensor generates a measurement signal corresponding to a position of the measuring body and thus corresponding to the relative position of the first and second part. | 06-19-2014 |
20140239942 | METHOD FOR CONTACTLESS MEASUREMENT OF A RELATIVE POSITION BY MEANS OF A HALL SENSOR - The present invention relates to a method for contactless measurement of a relative position of a magnetic field source, which produces a magnetic field and a magnetic field sensor in relation to each other. The present invention further relates to a corresponding displacement sensor. According to the present invention, the magnetic field sensor detects at least two spatial components (Bz, By) of the magnetic field and a position signal is produced from the measured components. The method comprises the following steps of calculating the position signal based on a quotient of the two magnetic field components; and correcting, before the quotient is calculated, the magnetic field component, which extends in a movement direction between the magnetic field source and the magnetic field sensor. | 08-28-2014 |
20140333295 | MAGNETIC FIELD SENSOR WITH IMMUNITY TO EXTERNAL MAGNETIC INFLUENCES - A magnetic field sensor with enhanced immunity to external magnetic interference is presented. Included is a magnetic field signal generator and a demodulator. The magnetic field signal generator produces a magnetic field signal having a modulated signal portion in a first frequency band based on a sensed modulated AC bias magnetic field. The modulated AC bias magnetic field is produced by movement of ferromagnetic target relative to a bias coil when an AC signal is applied to the bias coil. When the magnetic field signal also includes an unwanted signal portion in a second frequency band based on external magnetic interference, demodulation performed by the demodulator results in the modulated signal portion being shifted from the first frequency band to a third frequency band and the unwanted signal portion being shifted to the first frequency band. The bias coil may be provided as part of the magnetic field sensor. | 11-13-2014 |
20140347040 | ROTATION-ANGLE DETECTION DEVICE, IMAGE PROCESSING APPARATUS, AND ROTATION-ANGLE DETECTION METHOD - A rotation-angle detection device includes: an amplitude adjustment unit that performs correction to match amplitude values of multiple detection signals output from multiple rotation detection units to output corrected signals, the rotation detection units changing outputs in accordance with a rotation angle of a rotor and being provided such that the rotation detection units output the detection signals having different phases; a vector generation unit that performs addition and subtraction on two signals out of the corrected signals to generate two vector component signals that are perpendicular to each other; an amplitude correction unit that performs correction to match amplitudes of the two vector component signals to output corrected vector component signals; and a rotation-angle searching unit that searches for the rotation angle of the rotor on basis of a vector that is represented by the two corrected vector component signals to output a detection angle. | 11-27-2014 |
20140354267 | METHOD OF COMPENSATING COMMAND VALUE FOR ROTATION ANGLE - There is provided a method of compensating a command value for rotation angle capable of precisely compensating a command value for rotation angle even when conditions at detection differ to thereby make error patterns different in the case where a tooth-to-tooth period error pattern in an arbitrary tooth period is used for all the tooth periods to correct a command value for rotation angle. When a rotation angle of a detection target gear | 12-04-2014 |
20150022188 | MAGNETIC FIELD SENSOR AND RELATED TECHNIQUES THAT PROVIDE AN ANGLE CORRECTION MODULE - A magnetic field sensor provides an angle error value to correct errors of the magnetic field sensor. The angle error value is a function of temperature and magnetic field strength and is used to correct a measured magnetic field angle. Associated methods are also described. | 01-22-2015 |
20150084621 | CURRENT SENSOR - A current sensor includes a magnetic core with a gap in part of a circumference and formed in an annular shape, and a magneto-electric conversion element arranged in the gap, the magneto-electric conversion element detecting magnetic fluxes changing with a measurement target current passing through a hollow part of the magnetic core. The magnetic core is formed by laminating a plurality of materials in a direction except a circumferential direction, and is formed so that magnetic flux densities of two points in an area defined in advance as an area where a sensing part of the magneto-electric conversion element can exist (hereinafter referred to as a sensing part existence area) approximate to each other, the two points being away from each other with a distance in a laminating direction being a length of the sensing part in the laminating direction. | 03-26-2015 |
20150115937 | HALL ELECTROMOTIVE FORCE COMPENSATION DEVICE AND HALL ELECTROMOTIVE FORCE COMPENSATION METHOD - A Hall resistance measurement unit measures a Hall resistance value in two or more current directions between a plurality of terminals of the Hall element. A Hall electromotive force measurement unit measures the Hall electromotive force of the Hall element. A temperature measurement unit measures an operating temperature of the Hall element. A compensation signal generation unit compensates the Hall electromotive force on the basis of the Hall resistance value from the Hall resistance measurement unit and a temperature output value from the temperature measurement unit. A compensation coefficient calculation circuit calculates a compensation coefficient on the basis of the Hall resistance value measured by the Hall resistance measurement unit and the temperature output value measured by the temperature measurement unit. The compensation coefficient includes a mechanical stress compensation coefficient and a temperature compensation coefficient. | 04-30-2015 |
20150137800 | ROTATION SENSING METHOD AND SYSTEM - A sensing system and method. A coded wheel is configured to generate a signal that varies with rotation of the coded wheel. A sensor is configured to sense the varying signal and output a corresponding signal. A correction module is configured to receive the signal output by the sensor and compare the received signal to a stored signal and detect a defect in the coded wheel in response to the comparison. | 05-21-2015 |
20150330140 | LOCK DEVICE HAVING POSITION SENSOR - A position sensing system and method for detecting the displacement of a door from a reference position, such as, for example, from a closed position. The system includes a magnetometer that may be operably connected to the door, and which measures positional location relative to a reference magnetic field, such as, for example, a magnetic field provided by a magnet of a lock device. The system may also include an accelerometer that detects acceleration of the door, and thereby provides an indication of when location is to be measured by the magnetometer. Measurement information from the magnetometer is used to derive a position indicator that is compared to a reference indicator, the reference indicator being associated with the reference position. Differences between the position and reference indicators may provide an indication that the door has been moved from the reference position. | 11-19-2015 |
20160054152 | DIAGNOSTIC DEVICE - A diagnostic device capable of accurately diagnosing the soundness of a resolver circuit is provided. A shifter receives excitation signal and excitation signal; shifts the level of excitation signal, excitation signal, or both; and performs level shifting such that a period of time that starts with one of two times in which, in the vicinity of the peak value of excitation signal, excitation signal and excitation signal are at the same value and ends with the other of the two times is less than a prescribed threshold. A trigger generation circuit generates a trigger during said period of time. A control unit determines whether there is an abnormality in the resolver circuit on the basis of the trigger. | 02-25-2016 |
20160054153 | INDUCTIVE SENSING SYSTEMS AND METHODS BASED ON MULTIPLE FREQUENCIES - A target detection system may include a power supply and an inductor capacitor (LC) tank circuit. The LC tank circuit may include a sensing coil, a first tank capacitor, and a second tank capacitor. Further, the LC tank circuit may alternate between the first tank capacitor and the second tank capacitor, and the power supply may power the LC tank circuit. The target detection system may further include measurement circuitry to measure a first decay characteristic of a first set of free oscillations from the first tank capacitor and a second decay characteristic of a second set of free oscillations from the second tank capacitor. Additionally, the target detection system may also include processing circuitry to compare the first decay characteristic to the second decay characteristic to determine a presence and a distance of a target. | 02-25-2016 |
20160061637 | INTEGRATED ANGLE SENSING DEVICE - A sensor arrangement includes a sensor element and a magnet module. The sensor element is configured to measure a magnetic field and is positioned within a shaft. The shaft is configured to shield the magnet module and the sensor element. The magnet module is configured to generate the magnetic field. The sensor element is at least partially positioned within the shaft. | 03-03-2016 |
20160084683 | IN STORE DISPLAY CALIBRATION SYSTEM - A test fixture used to calibrate an electronic device is disclosed. The test fixture includes several modules positioned on a rack. The modules may include either a stimulus member or light-absorbing material. An actuator connected to an end unit is configured to engage any one of the several modules and transport the module from the rack to a location over the electronic device. At least one module can calibrate a touch sensor of the electronic device, while at least another module can calibrate a proximity sensor of the electronic device. In some cases, an additional module is configured to calibrate a touch sensor of a second electronic device, such as a previous generation of an electronic device or an electronic device having a different dimension. The electronic device can lie on a cradle that may be identified by a feature on the cradle, such as a magnet. | 03-24-2016 |
20160091574 | SYSTEM AND METHOD FOR ACTIVE BALANCING/CANCELLATION OF MAGNETIC INTERFERENCE IN A MAGNETIC SENSOR - A sensing system including a first magnet having a first magnetic field. In one embodiment, the sensing system also includes a first stator configured to receive the first magnetic field and a second stator configured to receive the first magnetic field. A first collector is configured to collect the first magnetic field from the first stator, a second collector is configured to collect the first magnetic field from the second stator, and a magnetic sensing element is configured to sense the first magnetic field. The sensing system also includes a second magnet having a second magnetic field, and a third magnet having a third magnetic field. The third magnet is positioned such that the third magnetic field is symmetrical to the second magnetic field. | 03-31-2016 |
20160109531 | OFFSET COMPENSATION METHOD AND SYSTEM OF HALL SENSOR IN MOTOR - An offset compensation method and system of a hall sensor in a motor are provided. The system and method prevent a detection error regarding the position of the rotor of the motor and more accurately measure the speed and location of a rotor by storing the position of when output values of three hall sensors while slowly rotating the rotor by adding control mode for applying a low speed rotating magnetic field to a controller, extracting and storing offsets between each hall sensor and the U-phase position of a stator winding, and then excluding the influence of the offset of a rotor magnet in normal operation mode. | 04-21-2016 |
20160138942 | ROTATION DETECTION DEVICE AND BEARING UNIT EQUIPPED WITH ROTATION DETECTION DEVICE - The rotation detection device includes: an encoder having to-be-detected patterns cyclically arranged in the circumferential direction; and a sensor configured to detect the to-be-detected patterns to generate pulses. The device further includes a reference pattern storage unit, a phase difference detection unit, and an error correction unit. The reference pattern storage unit measures pitch errors in the to-be-detected patterns prior to operation and stores the pitch errors as a reference pattern Pref. The phase difference detection unit determines a pitch error pattern Pm corresponding to one rotation of the to-be-detected patterns from rotation signals representing a plurality of rotations detected during operation, and performs comparison with a reference pattern Pref to determine a relative phase difference φ. Based on the phase difference φ obtained by the phase difference detection unit, the error correction unit corrects errors included in the rotation signals detected by the sensor. | 05-19-2016 |
20160146638 | Rotary Encoder - A rotary encoder assembly comprises an annular track comprising an alternating pattern of at least two different encoding regions; a first detector and a second detector each arranged to produce a respective alternating output signal as the track of encoding regions rotates about its axis past the detector, the combined values of the two output signals assuming a plurality of unique states with the states changing from one to another as the encoder rotates. A memory stores compensation values, each value being associated with a respective one of the possible state changes that can occur when the combined values of the two output signals change upon movement of the encoder track, and each indicative of an average error in the position at which the corresponding change of state occurs. A processing means in use generates a position signal that is updated when there is a change in the combined states of the output signals of the two detectors, the position signal being corrected by an amount indicated by the compensation value associated with the latest change in state. | 05-26-2016 |
20160161285 | NON-CONTACT ADJUSTABLE HYSTERETIC MAGNETIC ENCODER - A non-contact adjustable hysteretic magnetic encoder includes a bipolar magnetic block, two magnetic sensing components, a storage, and a controller. After retrieving the current rotation angle by accessing a rotation angle table, the controller determines, by an encoding rule, digital logical values of a first phase signal (A-phase signal) and digital logical values of a second phase signal (B-phase signal) and outputs the digital logical values. The phase difference between a first phase signal and a second phase signal is adjusted, and a hysteresis range, also known as hysteresis angle, is adjusted, according to the grids attributed to the predetermined number of grids before the turning point and the grids attributed to the predetermined number of grids after the turning point. Hence, the non-contact adjustable hysteretic magnetic encoder features enhanced potential of expansion and marked industrial practicability. | 06-09-2016 |
20160161304 | FAULT DIAGNOSIS METHOD FOR RESOLVER - The present disclosure provides a fault diagnosis method for a resolver including: receiving output signals for detecting an absolute angular position of a rotor of a motor, inputted from the resolver when the motor rotates in a state in which excitation signals are applied to the resolver; periodically sampling and reading voltage values for fault diagnosis from the received output signals inputted as voltage signals from the resolver; calculating a difference between voltage values of two output signals of the received output signals generating an angle detection signal for detecting the absolute angular position of the rotor; and determining a short circuit between an excitation signal and an output signal of the resolver by comparing the difference between the voltage values with a preset setting voltage. | 06-09-2016 |
20160178394 | METHOD FOR DYNAMIC LINEARISATION OF SENSOR SIGNALS FROM A MAGNETIC STRIP LENGTH MEASURING SYSTEM | 06-23-2016 |
20160178397 | SENSOR CIRCUIT, A SENSOR DEVICE AND A METHOD FOR FORMING A SENSOR CIRCUIT | 06-23-2016 |
20160202087 | ROTATION ANGLE DETECTOR | 07-14-2016 |
20160202089 | POSITION SENSOR DEVICE TO DETERMINE A POSITION OF A MOVING DEVICE | 07-14-2016 |
20170234681 | CORRECTING AND/OR PREVENTING ERRORS DURING THE MEASUREMENT OF COORDINATES OF A WORK PIECE | 08-17-2017 |