| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 324662000 | To determine dimension (e.g., thickness or distance) | 48 |
| 20080218181 | Rotor blade system for rotor and rotor case inspection - The present invention relates to a system used for inspecting the position of a compressor rotor within a compressor rotor case. A compressor rotor blade is moved about the rotor blade path of the compressor rotor case, a probe holder attached to the rotor blade has a scanning device as part of the holder used for gathering information relative to the compressor rotor case. A fixture attached to the compressor rotor gathers information about the position of the compressor rotor with respect to the compressor rotor case to determine the relative position of both the compressor rotor in relation to the compressor rotor case. | 09-11-2008 |
| 20080231291 | Capacitive Distance Sensing In Semiconductor Processing Tools - A sensor for sensing a gap between the sensor and an object of interest within a semiconductor processing chamber is provided. The sensor includes a housing, a power source inside the housing, wireless communication circuitry, a controller, measurement circuitry and a plurality of capacitive plate pairs. The controller and wireless communication circuitry are coupled to each other, and to the power source. The plurality of capacitive plate pairs are configured to form capacitors having a capacitance that varies with the gap. Measurement circuitry is coupled to the controller and to the plurality of capacitive plate pairs. The measurement circuitry is configured to measure the capacitance of the capacitive plate pairs and provide indications thereof to the controller. The controller is configured to provide an indication relative to the gap based, at least in part, upon the measured capacitances. | 09-25-2008 |
| 20080238444 | Capacitive Proximity Switch and Domestic Appliance Equipped Therewith - A capacitive proximity switch has an electrically conductive sensor surface, which is covered by an electrically non-conductive covering plate and which serves as a part of a capacitor having a capacitance that varies with proximity. The sensor surface is connected to a control input of a semiconductor switch that has a signal input with a clock signal and a signal output. A household appliance is equipped with the capacitive proximity switch. The signal output of the semiconductor switch has an output signal, which follows the clock signal and which has signal portions that are proportional to the capacitance of the capacitor formed with the sensor surface. | 10-02-2008 |
| 20080246493 | Semiconductor Processing System With Integrated Showerhead Distance Measuring Device - A system for determining a distance between a showerhead of a semiconductor processing system and a substrate-supporting pedestal is provided. The system includes a showerhead having a showerhead surface from which reactive gas is expelled and a pedestal having a pedestal surface that faces the showerhead surface. A first capacitive plate is disposed on the pedestal surface. A second capacitive plate is disposed on the showerhead surface. A third capacitive plate disposed on one of the showerhead surface and the pedestal surface, but spaced from the first and second capacitive plates. Capacitance measurement circuitry is operably coupled to the first, second and third capacitive plates. | 10-09-2008 |
| 20080246494 | Capacitive Proximity Switch and Household Appliance Equipped Therewith - A capacitive proximity switch has an electrically conductive sensor surface, which is covered by an electrically non-conductive covering plate and which serves as a part of a capacitor with a capacitance that varies with proximity. The proximity switch includes a reference sensor surface for generating a reference signal for determining an actuation state of the proximity switch. Signal portions of the reference signal are proportional to the capacitance of a reference capacitor formed with the reference sensor surface, and the capacitance of the reference capacitor is determined by surrounding conditions of the sensor surface. | 10-09-2008 |
| 20080278178 | Capacative Position Sensor - A sensor for determining a position for an adjacent object in two dimensions is described. The sensor comprises a substrate with a sensitive area defined by a pattern of electrodes, wherein the pattern of electrodes includes a first group of drive elements interconnected to form a plurality of row electrodes extending along a first direction, a second group of drive elements interconnected to form a plurality of column electrodes extending along a second direction, and a group of sense elements interconnected to form a sense electrode extending along both the first and second directions. The sensor further comprises a controller comprising a drive unit for applying drive signals to the row and column electrodes, and a sense unit for measuring sense signals representing a degree of coupling of the drive signals applied to the row and column electrodes to the sense electrode. Thus a 2D position sensor requiring only a single sense channel is provided. | 11-13-2008 |
| 20090015268 | DEVICE AND METHOD FOR COMPENSATING A CAPACITIVE SENSOR MEASUREMENT FOR VARIATIONS CAUSED BY ENVIRONMENTAL CONDITIONS IN A SEMICONDUCTOR PROCESSING ENVIRONMENT - A method of sensing proximity to a showerhead in a semiconductor-processing system is provided. The method includes measuring a parameter that varies with proximity to the showerhead, as well as with at least one external factor. The method also includes measuring a parameter that does not vary with proximity to the showerhead, but does vary with the at least one factor. A compensated proximity output is calculated based upon the measured parameters and is provided as an output. | 01-15-2009 |
| 20090096467 | Contact Free Absolute Position Determination of a Moving Element in a Medication Delivery Device - The present invention relates to a medication delivery device for expelling set doses of medicament, the medication delivery device comprising a position determining assembly for detecting absolute positions of a rotatably mounted member arranged within the device, the position determining assembly comprising a plurality of transmitter electrodes arranged on a first exterior surface part of the rotatably mounted member, a plurality of receiver electrodes arranged on a second exterior surface part of the rotatably mounted member. A number of transmitter electrodes form pairs of interconnected electrodes with a number of receiver electrodes. A reading assembly fixedly arranged relative to for example the housing of the medication delivery device is also provided. The reading assembly comprises a plurality of transmitters arranged to electrically couple to one or more receiver electrodes, the reading assembly further comprising a plurality of receivers arranged to electrically couple to one or more transmitter electrodes. | 04-16-2009 |
| 20090115429 | Simultaneous Detection of In-Plane and Out-Of-Plane Position Displacement With Capacitive Sensors - An apparatus includes a first capacitive sensor connected to a first supply voltage, a second capacitive sensor connected to a second supply voltage, a sensing circuit for producing a sense voltage in response to current flowing in the first and second capacitive sensors, a first mixer for combining the sense voltage with a first reference voltage to produce a first signal representative of in-plane displacement between electrodes of the first and second capacitive sensors, and a second mixer for combining the sense voltage with a second reference voltage to produce a second signal representative of out-of-plane displacement between the electrodes of the first and second capacitive sensors. | 05-07-2009 |
| 20090128166 | APPARATUS TO MEASURE THE CLEARANCE BETWEEN A FIRST COMPONENT AND A SECOND COMPONENT - An apparatus for determining a clearance between rotor blade tips of rotor blades mounted on a rotor and a stator lining mounted on a stator casing. The stator lining is movable radially relative to the stator casing. The stator lining comprises an abradable material. At least one probe is arranged to measure the clearance between blade tips and stator lining. A first portion of the at least one probe is arranged within the stator lining and a tip of the first portion of the at least one probe is arranged flush with the surface of the abradable material. The tip of the first portion of the at least one probe comprises an abradable material. A second portion of the at least one probe is secured to the stator casing. A wire-less and connector-less coupling transmits a measurement signal from the first portion to the second portion of the at least one probe to allow radial movement of the stator lining relative to the stator casing. | 05-21-2009 |
| 20090206846 | Capacitor-based position sensor for vehicle - A position sensor has an external moving element couplable to a moving part whose angular or linear position is sought to be sensed. A sealed enclosure is engaged with the moving element such that the moving element moves relative to the enclosure, and capacitive elements are in the enclosure. An internal moving element inside the enclosure is magnetically coupled to the external moving element for movement with the external element, with the internal moving element moving between the capacitive elements thereby change the capacitance between the capacitive elements as the external moving element moves. | 08-20-2009 |
| 20090267618 | CAPACITIVE SENSOR CORE WITH FLEXIBLE HINGE AND SENSOR USING THE SAME - A capacitive sensor core with flexible hinge is disclosed. The capacitive sensor core comprises a main grid plate ( | 10-29-2009 |
| 20090302869 | PROBE WITH ELECTROSTATIC ACTUATION AND CAPACITIVE SENSOR - A supported probe device that has a probe tip and probe body, the probe body having a sample facing surface and an opposing surface. The probe tip and a first electrode are on the sample facing surface. A second electrode is present on the probe body opposing surface. A third electrode is spaced from the second electrode, so that the second electrode is between the third electrode and the probe body. A first DC voltage source is electrically coupled to the first electrode, as is a first sensing circuit. A second DC voltage source is electrically coupled to the second electrode, and an AC voltage source electrically coupled to the third electrode. The probe body may be cantilevered. | 12-10-2009 |
| 20100019780 | MULTI-AXIS CAPACITIVE SENSOR - Methods for determining the position of multiple objects concurrently disposed within a capacitive sensing region are described. In one embodiment, indicia are received from a first plurality of capacitive sensor electrodes oriented along a first axis. Indicia are received from a second plurality of capacitive sensor electrodes oriented along a second axis, wherein the second axis is oriented non-parallel to the first axis. Indicia are received from a third plurality of capacitive sensor electrodes oriented along a third axis, wherein the third axis is oriented non-parallel to the first axis and the second axis. Then, the indicia received from the first plurality of capacitive sensor electrodes, the indicia received from the second plurality of capacitive sensor electrodes, and the indicia received from the third plurality of capacitive sensor electrodes is used to determine the positions of the multiple objects concurrently disposed within the capacitive sensing region. | 01-28-2010 |
| 20100026320 | Sensing device for measuring a position of nanoscale motion apparatus - A nanoscale motion apparatus comprises a fixed base, a movable platform, and means for moving the movable platform connected between the fixed base and the movable platform. A sensing device comprises a holder, at least two nanosensors, and a measurement plate. The holder is mounted on the fixed base. The nanosensors are configured on the holder. The measurement plate is mounted on the movable platform. The measurement plate can be sensed by the nanosensors so as to measure the corresponding variation between the fixed base and the movable platform. | 02-04-2010 |
| 20100039122 | CAPACITIVE SENSING AND METHOD - A capacitive vehicle sensor includes a sensing electrode configured to generate an electric field, a shield electrode configured to reduce the electromagnetic influence of electric fields generated by objects outside of the electric field, a circuit coupled to the sensing electrode and shield electrode that allows a plurality of impedances to be coupled between the sensing electrode and the shield electrode, and a control system. The control system configures the impedances between the sensing electrode and the shield electrode, is configured to measure current to the sensing electrode in each configuration, and is configured to calculate a measure related to the impedance from the sensing electrode to ground. | 02-18-2010 |
| 20100052701 | Nanoscale Displacement Transducer - Embodiments of the invention relate to nanoscale measurement of displacement. In one embodiment, a measurement apparatus includes a first plurality of nanoparticles coupled to a first substrate electrically coupled to a second plurality of nanoparticles coupled to a second substrate with a guide or guides disposed between the first substrate and the second substrate that allow for the substrates to move relative to each other. | 03-04-2010 |
| 20100060299 | DETERMINING CHIP SEPARATION BY COMPARING COUPLING CAPACITANCES - A semiconductor die includes proximity connectors proximate to a surface of the semiconductor die. This semiconductor die is configured to communicate signals with another semiconductor die via proximity communication through one or more of the proximity connectors. In particular, the proximity connectors include a first group of proximity connectors that is configured to facilitate determining a first separation between the semiconductor die and the other semiconductor die by comparing coupling capacitances between the semiconductor die and the other semiconductor die. Note that the first group of proximity connectors includes a first proximity connector and a second proximity connector, and the second proximity connector at least partially encloses an in-plane outer edge of the first proximity connector. | 03-11-2010 |
| 20100079154 | CAPACITIVE ANGLE ENCODER AND WITHDRAWABLE FEEDER FOR CIRCUIT BOARD COMPONENT INSERTION MACHINES - The invention relates to a capacitive angle encoder for detecting a rotational position of a rotatable object relative to a stationary object as well as a withdrawable feeder for circuit board component insertion machines, said withdrawable feeder being equipped with an angle encoder according to the invention. The angle encoder comprises a stator that supports first and second transmitting electrodes and first and second receiving electrodes, and a rotor which supports an incremental coupling electrode and an absolute value-coupling electrode. The incremental coupling electrode is designed such that the first electrostatic field is modulated by a change in capacitance in response to a change in the rotational position of the rotor, while the absolute value-coupling electrode is designed such that the second electrostatic field is modulated by a change in capacitance in response to an absolute rotational position of the rotor. A signal processing circuit detects the first and second modulated electrostatic field and determines a measured value for the position in response to the detected field. The at least one first and second transmitting electrode and the at least one first and second receiving electrode are coplanar to one another. | 04-01-2010 |
| 20100109681 | Plasma Insensitive Height Sensing - A method for determining a distance between a first piece and a second piece includes measuring, at the first or second piece, an AC signal, and determining the distance based on the measured AC signal. A system for determining a distance between a first piece and a second piece includes a measuring device adapted to measure, at one or both of the first and second piece, an AC signal, and a signal processing device adapted to determine the distance based on the measured AC signal. The AC signal includes a DC offset. | 05-06-2010 |
| 20100117661 | GRID TOUCH POSITION DETERMINATION - A capacitive sensing circuit which has a uniformly resistive sense plate, a charge transfer measurement circuit connected to one side of the sense plate and a dummy load which is only connected to another side of the sense plate during some measurement cycles. | 05-13-2010 |
| 20100148803 | PASSAGE DETECTION APPARATUS OF OBJECT - A passage detection apparatus is configured to detect the change in the properties (propagation state of sound wave, dielectric constant, etc.) of a specific space, which changes according to the passage of an object in the specific space and the size of the object. The passage detection apparatus includes a pair of detection units and configured to transmit and receive signals to and from an external device. The specific space is formed by the space between the detection unit and the detection unit. The detection unit is supported by a first substrate. The detection unit is supported by a second substrate that is parallel to the first substrate, and arranged at the position corresponding to the detection unit supported by the first substrate. | 06-17-2010 |
| 20100182017 | DRIVE BY WIRE NON-CONTACT CAPACITIVE THROTTLE CONTROL APPARATUS AND METHOD OF FORMING THE SAME - A drive-by-wire non-contact capacitive throttle control apparatus and method of forming the same. A capacitive position sensor is provided, which includes a stationary electrode and a rotatable electrode. The rotatable electrode can be attached to a throttle lever such that the rotatable electrode rotates as the throttle lever rotates. The capacitance between the rotatable electrode and the stationary electrode varies with the position of the throttle lever. The position of the throttle lever can be measured by measuring the capacitance between the electrodes and a signal can be generated based on the sensed position. The signal can be electrically transmitted to an ECU (Electronic Control Unit) utilizing one or more electrical wires. The signal can be sent in the form of a varying voltage, which in turn controls the throttle of a vehicle. | 07-22-2010 |
| 20100219842 | Detection Circuit for Use in Various Types of Capacitive Transducers and a Transducer Including Such a Circuit - A detection circuit for detecting changes in capacitance. The detection circuit includes a tuned ratio circuit and an alternating current (AC) source AC-coupled to the tuned ratio circuit. The tuned ratio circuit includes first and second tuned circuits that are tuned to, or close, to the frequency of the AC source. Output circuitry is coupled between the two tuned circuits. During use as a transducer, an active capacitive transducer is inductively coupled to the first tuned circuit. Changes in the capacitance of the active capacitive transducer cause changes in the tuning of the first tuned circuit. The output circuitry generates an output signal that is a function of the difference between the tunings of the first and second tuned circuits. | 09-02-2010 |
| 20100231238 | Proximity Sensor and Rotational Operation Detecting Device - A proximity sensor for determining an approaching direction of an object is provided. Relative detection sensitivity is established in a first detection unit and a second detection unit such that a detection level of the first detection unit is greater than a detection level of the second detection unit when the object approaches from a first electrode in a direction of arranging the first electrode and a second electrode, and that the detection level of the second detection unit is greater than the first detection unit when the object approaches from a direction perpendicular to the direction of arranging the first electrode and the second electrode. A proximity position determining section is adapted to determine the approaching direction of the object based on the detection level of the first detection unit and the detection level of the second detection unit. | 09-16-2010 |
| 20100237880 | Capacitive Sensors for Nano-Positioning and Methods of Using The Same - Symmetrical differential capacitive sensors are disclosed. Methods of making and using symmetrical differential capacitive sensors are also disclosed. | 09-23-2010 |
| 20100237881 | CALIBRATION METHOD FOR INERTIAL DRIVE ACTUATOR, AND INERTIAL DRIVE ACTUATOR DEVICE - A calibration method for inertial drive actuator of driving a target moving body among a plurality of moving bodies to move by inertia between a first movement limit position and a second movement limit position in relation to an oscillating plate that is moved to reciprocate by a moving member, and detecting positions of the moving bodies based on electrostatic capacitances includes detecting electrostatic capacitances of opposing parts of a moving body side electrode provided in a target moving body and an oscillating plate electrode provided in the oscillating plate is detected at the first movement limit position and the second movement limit position, respectively; and calculating a ratio of a difference between the electrostatic capacitances at the first movement limit position and the second movement limit position to a movement limit distance that is a distance between the first movement limit position and the second movement limit position. At least one of the first movement limit position and the second movement limit position is a position where the target moving body abuts against a non-target moving body. | 09-23-2010 |
| 20100295561 | METHOD AND ARRANGEMENT FOR INDICATING CORRECT INSTALLATION OF PLUG-IN UNIT OF TELECOMMUNICATIONS DEVICE - An arrangement for indicating correct installation of a plug-in unit ( | 11-25-2010 |
| 20110241703 | VARIABLE CAPACITOR AND POSITION INDICATOR - A variable capacitor is disclosed, including: a dielectric having a first surface and a second surface opposing the first surface; a first electrode disposed on the first surface of the dielectric; a second electrode disposed to face the second surface of the dielectric; and a pressing member configured to cause the second electrode and the dielectric to contact each other when a pressing force is applied thereto (e.g., when a pen-shaped position indicator including the variable capacitor is pressed against a tablet). In the variable capacitor, the second electrode includes at least one electrode piece having an abutting central portion, against which the pressing member transmits a pressing force applied thereto, and an extension portion that radially extends from the abutting central portion toward a circumferential portion of the dielectric. A contact area between the dielectric and the second electrode is changed in accordance with a pressing force applied to the pressing member, to thereby change a capacitance of the variable capacitor. | 10-06-2011 |
| 20120032691 | DEVICE FOR MEASURING DISTANCE BETWEEN HEADREST AND HEAD, METHOD FOR MEASURING DISTANCE BETWEEN HEADREST AND HEAD, HEADREST POSITION ADJUSTING DEVICE, AND HEADREST POSITION ADJUSTING METHOD - A headrest position adjusting device | 02-09-2012 |
| 20120062246 | Ultraprecision Non-Contact Three-Dimensional Probing System Based On Spherical Capacitive Plate - An ultraprecision non-contact three-dimensional probing system based on a spherical capacitive plate has a probe ( | 03-15-2012 |
| 20120146668 | CAPACITIVE OCCUPANT SENSING APPARATUS - A control circuit identifies whether an occupant on a seat is an adult or a child based on a first capacitance between a first sensing electrode and a ground and a second capacitance between a second sensing electrode and the ground. The first capacitance is computed based on a value of an electric current, which is supplied to the first sensing electrode at the time of applying an oscillation signal from a signal application circuit to the first sensing electrode. The second capacitance is computed based on a value of an electric current, which is supplied to the second sensing electrode at the time of applying an oscillation signal from the signal application circuit to the second sensing electrode. | 06-14-2012 |
| 20130033274 | MICROELECTROMECHANICAL SENSOR WITH DIFFERENTIATED PERFORMANCES AND METHOD OF CONTROLLING A MICROELECTROMECHANICAL SENSOR - A microelectromechanical sensor includes a supporting structure and a sensing mass, which is elastically coupled to the supporting structure, is movable with respect thereto with one degree of freedom in response to movements according to an axis and is coupled to the supporting structure through a capacitive coupling. A sensing device senses, on terminals of the capacitive coupling, transduction signals indicative of displacements of the first sensing mass according to the degree of freedom. The sensing device includes at least one first reading chain, having first operative parameters, one second reading chain, having second operative parameters different from the first operative parameters, and one selective electrical connection structure that couples the first reading chain and the second reading chain to the first terminals. | 02-07-2013 |
| 20130193989 | CAPACITIVE DISTANCE SENSOR - A capacitive distance sensor is provided. The distance sensor includes a sensor element having an electrically conductive, elongated, flat sensor area which in turn contains a number of holes. The sensor area is completely surrounded by an electrically non-conductive insulating body, with the result that the insulating body completely covers the edge regions of the holes. The sensor element is produced, in particular, by first of all making the holes in the sensor area. In a subsequent step, the sensor area is completely encased by the insulating body which also completely fills the holes in the sensor area. | 08-01-2013 |
| 20130321002 | SENSOR ASSEMBLIES - The present invention provides a sensor body ( | 12-05-2013 |
| 20130342222 | ROTARY INPUT APPARATUS - In a rotary input apparatus, a stationary ground electrode, a first stationary sensing electrode, and a second stationary sensing electrode are formed on a stationary facing surface of a stationary plate. The first stationary sensing electrode includes first facing portions and a first connecting portion electrically connecting the first facing portions, and the second stationary sensing electrode includes second facing portions and a second connecting portion electrically connecting the second facing portions. Each of the first facing portions has a different phase from that of the corresponding one of the second facing portions in a rotation direction. When a rotary electrode, which is provided on a rotary portion, rotates, an encoded signal of a first phase is obtained between the first stationary sensing electrode and the ground potential, and an encoded signal of a second phase is obtained between the second stationary sensing electrode and the ground potential. | 12-26-2013 |
| 20140103942 | SENSOR FOR WEAR MEASUREMENT, METHOD OF MAKING, AND METHOD OF OPERATING SAME - A wear sensor comprising:
| 04-17-2014 |
| 20140152325 | DISPLACEMENT AMOUNT MONITORING ELECTRODE STRUCTURE - The displacement amount monitoring electrode structure includes a fixed electrode and a movable electrode each having a comb-teeth shape including a base part and electrode fingers extending from the base part in a direction parallel to a substrate. The fixed electrode and the movable electrode face each other such that the electrode fingers are meshed together. The fixed electrode is fixed to the substrate and the movable electrode can be displaced in the direction. The displacement amount monitoring electrode structure monitors a displacement amount of a detection mass to be driven at a target amplitude based on a change amount of a capacitance between the fixed electrode and the movable electrode. A change sensitivity of the change amount of the capacitance with respect to a displacement amount of the movable electrode, becomes larger after the displacement of the movable electrode reaches a target amount corresponding to the target amplitude. | 06-05-2014 |
| 20140292354 | CAPACITIVE SENSOR - A capacitive sensor has at least first and second conductive areas so that a first capacitance is formed between the first conductive area and a surface, and a second capacitance is formed between the second conductive area and the surface, and the ratio of the first capacitance to the second capacitance has a predetermined value only when the sensor is at a predetermined distance from the surface. | 10-02-2014 |
| 20150028894 | TOUCH SENSOR FOR NON-UNIFORM PANELS - A two-dimensional capacitive touch sensor having a cover layer of varying thickness arranged on top of its electrode structure. An array of sensing nodes is formed between edge portions of the receiver electrodes and adjacent portions of the transmitter electrodes. To compensate for the varying thickness of the cover layer, the length of the edge portions per sensing node is varied to equalize node sensitivity across the sensor and thus suppress the systematic variation in node sensitivity which would otherwise arise as a result of the varying thickness of the cover layer. | 01-29-2015 |
| 20150042362 | OPTICAL FILTER, OPTICAL MODULE, ELECTRONIC APPARATUS, AND METHOD OF MANUFACTURING OPTICAL FILTER - An optical filter includes a stationary substrate and a movable substrate disposed so as to be opposed to each other, a first reflecting film disposed on a movable substrate side of the stationary substrate, a second reflecting film disposed on a stationary substrate side of the movable substrate, and opposed to the first reflecting film, a first protective film disposed so as to overlap the first reflecting film, and having a light transmissive property and electrical conductivity, a second protective film disposed so as to overlap the second reflecting film, and having a light transmissive property and electrical conductivity, a first terminal connected to the first protective film, and a second terminal connected to the second protective film. An electrical connection of the first terminal and the second terminal is electrically switchable. | 02-12-2015 |
| 20150097582 | SENSOR FOR MEASURING BLADE TIP CLEARANCE IN GAS TURBINES - Determining a distance between stationary and moving portions of a turbo machine including generating, by a fixed gap capacitive probe, a first output signal based on a characteristic of a gas in a gas flow path of the turbo machine, wherein the fixed gap capacitive probe is located in the stationary portion and is configured to sense a characteristic of a gas flowing through the gas flow path. Also, a variable gap capacitive probe, located adjacent the fixed gap capacitive probe, is used to generate a second output signal based on a distance between the variable gap capacitive probe and the moving portion, wherein the variable gap probe is configured to capacitively couple to the moving portion of the turbo machine. Afterwards, the value of the second output signal can be adjusted based on the first output signal to produce an adjusted output signal. | 04-09-2015 |
| 20150145531 | METHOD, SYSTEM AND APPARATUS FOR CAPACITIVE SENSING - A system for obtaining incremental and absolute displacement measurements using systems of electrodes that interact to form variable capacitors and systems that facilitate implementation of the method along with exemplary embodiments of these systems. The capacitors created by the disclosed method have known physical properties and corresponding known mathematical relationships. These laws are exploited in such a way by our method as to overcome inadequacies in existing systems and create superior systems. These superior systems improve upon the existing art by including economically and reliably made sensors based on the area varying principle which eliminate dead zone issues and increase accuracy through a reduction of the influence of gap variations on capacitive systems through the use of compensatory geometrical arrangements of multiple capacitive systems. | 05-28-2015 |
| 20150300845 | CAPACITIVE SENSOR FOR DETECTING A RELATIVE MOVEMENT OF TWO ADJACENT BODIES - The capacitive sensor for detecting a relative movement of two adjacent bodies comprises a first electrode ( | 10-22-2015 |
| 20150346253 | FINGERPRINT SENSOR - The present disclosure provides a fingerprint sensor that comprises a first reference capacitor, a second reference capacitor, a first capacitor and a second capacitor. A first reference voltage is established across the first reference capacitor. The first reference voltage is a function of a capacitance detected in response to a touch event, a first reference capacitance of the first reference capacitor and a stray capacitance. The second reference capacitor has a first end and a second end, and is being configured to maintain a voltage difference between the first end and the second end, the voltage difference being a function of the first reference voltage. The first capacitor has a first capacitance and is coupled to the first end of the second reference capacitor. The second capacitor has a second capacitance and is selectively coupled in parallel with the first capacitor. The ratio of the stray capacitance to the first reference capacitance equals the ratio of the second capacitance to the first capacitance. | 12-03-2015 |
| 20160161292 | CAPACITIVE LINEAR ENCODER - Some embodiments of the invention include a capacitive linear encoder for determining positions comprising a scale and a read head for capacitively scanning the scale, wherein scale and read head are movable relative to one another. The scale has at least one, preferably capacitive, position reference marker. On the basis of the position references provided by the capacitive position reference marker, the positions are locatable in absolute terms and verifiable. | 06-09-2016 |
| 20170234671 | CAPACITIVE DISTANCE SENSOR | 08-17-2017 |
| 20190145750 | COMBINATION SENSOR | 05-16-2019 |
