Entries |
Document | Title | Date |
20080232425 | LOCATION DEPENDENT CALIBRATION FOR DISTRIBUTED TEMPERATURE SENSOR MEASUREMENTS - A method for calibrating distributed temperature sensing (DTS) systems is disclosed. The method includes: receiving temperature data associated with one or more locations along a length of an optical fiber; calculating a set of unique calibration coefficients specific to each of the one or more locations along the fiber length; and applying the set of calibration coefficients specific to each of the one or more locations along the fiber length to the temperature data for calibrated correction thereof. Also disclosed is a system for calibrating DTS data and a wellbore for providing calibrated DTS data. | 09-25-2008 |
20080240200 | Method and Device for Controlling an Internal Combustion Engine - On the fulfillment of a specified condition, a temperature signal outside an actuating device is detected to which a piezoelectric actuator is assigned. A piezoelectric temperature value is determined by the temperature signal. A temperature-capacitance characteristic value of the piezoelectric actuator is determined by the piezoelectric temperature value through specified mapping. A measured capacitance characteristic value is determined by a detected piezoelectric actuator charge and voltage corresponding to the temperature signal. A first correction capacitance characteristic value is determined by the measured capacitance characteristic value and the temperature-capacitance characteristic value. Independently, the charge and the voltage of the piezoelectric actuator is detected and the measured capacitance characteristic value is determined on the basis of these. The piezoelectric temperature value is determined by the measured capacitance characteristic value and the first correction capacitance characteristic value through inverse mapping with respect to the temperature and the capacitance characteristic value. | 10-02-2008 |
20080259989 | Systems and Methods for Temperature Measurement Using N-Factor Coefficient Correction - Various systems and methods for temperature measurement are disclosed. For example, some embodiments of the present invention provide temperature measurement systems. Such temperature measurement systems include a variable current source and a diode connected transistor. The variable current source is capable of applying two or more distinct currents to the diode connected transistor. The currents result in a different base-emitter voltage on the diode connected transistor. The systems further include an n-factor coefficient register and an analog to digital converter. The analog to digital converter is operable to receive two of the base-emitter voltages created by applying the different currents, and to provide a digital output based at least in part on a value stored in the n-factor coefficient register and the two base-emitter voltages. | 10-23-2008 |
20080259990 | TEMPERATURE SENSOR CIRCUIT AND CALIBRATION METHOD THEREOF - A temperature sensor circuit comprises a first monitor voltage generation circuit that generates a first monitor voltage with a characteristic that changes with respect to temperature; a second monitor voltage generation circuit that generates a second monitor voltage with a characteristic that changes by a variation amount different from the first monitor voltage with respect to the temperature; and a differential amplifier circuit, to which the first and second monitor voltages are inputted and that outputs the result of comparing the two voltages. Further, the differential amplifier circuit of the temperature sensor circuit is capable of switching to a first connection state, which outputs the comparison result, and to a second connection state, which outputs an offset monitor voltage that is rendered by adding the offset voltage of the differential amplifier circuit to the first or second monitor voltage or subtracting the offset voltage therefrom. | 10-23-2008 |
20080291964 | Temperature Sensing - A TGT measurement system comprises a plurality of thermocouples connected in parallel to a distributor, and a data storage device carrying calibration data relating to at least one of the thermocouples. | 11-27-2008 |
20080317086 | Self-calibrating digital thermal sensors - Methods and apparatus relating to calibration of digital thermal sensors after manufacturing are described. In one embodiment, a temperature value sensed by a digital thermal sensor may be calibrated based on a temperature value sensed by a thermal diode. The thermal diode and the digital thermal sensor may be on the same integrated circuit chip. Other embodiments are also disclosed. | 12-25-2008 |
20080317087 | Calibrating Method of Current Detection Type Thermocouple or the Like, Calibration Method of Offset of Operational Amplifier, Current Detection Type Thermocouple, Infrared Sensor and Infrared Detector - To calibrate a thermocouple, a calibrating thermocouple, made of the same thermocouple material as a detecting thermocouple, is used. An absolute thermoelectric power E | 12-25-2008 |
20090003405 | SENSOR RATIONALITY DIAGNOSTIC - A sensor diagnostic method, such as to determine rationality of one of three temperature sensors used in an exhaust aftertreatment system, includes determining the temperature difference between the first and second sensor, determining the temperature difference between the second and third sensor, determining whether the temperature differences are within an acceptable threshold range and comparing the two temperature differences to determine which sensor is in error, if any. | 01-01-2009 |
20090003406 | Thermal switch calibration apparatus and methods - An apparatus and method for testing thermal switches is disclosed including modulating the temperature of a receiver in thermal contact with a thermal switch at a first rate within a range containing the nominal switch temperature of the thermal switch. A first temperature at which the switch changes state is recorded. The temperature is then modulated at a second rate and a second temperature at which the switch again changes state is recorded. The temperature may be modulated at a third rate slower than the second rate to determine a third temperature. The first, second, and third switch temperatures are then processed and output to an operator. The first, second, and third rates may be determined according to an exponentially decreasing function. | 01-01-2009 |
20090010301 | TEMPERATURE DETECTION CIRCUIT - A temperature detection circuit includes a first voltage source circuit to generate a first voltage having a temperature dependence by utilizing a work function difference of gate electrodes of a plurality of field effect transistors, a second voltage source circuit to generate a reference voltage having no temperature dependence by utilizing a work function difference of gate electrodes of a plurality of field effect transistors, a correction circuit configured to correct the reference voltage and output a corrected voltage, and a subtraction amplifier configured to subtract the corrected voltage from the first voltage, amplify a resulting subtracted voltage, and output a resulting amplified voltage as a correction voltage signal to adjust a temperature coefficient of the correction voltage signal. | 01-08-2009 |
20090010302 | METHOD AND DEVICE FOR IDENTIFYING A TEMPERATURE SENSOR CONNECTED TO A CONTROL UNIT - A controller of a hob is connected to a temperature sensor of a radiation based heating element. In principle, two different groups of temperature sensors can be used, whose resistance values differ by approximately a factor of three. When the hob is first used, the resistance of the temperature sensor is measured at room temperature and is classified in one of the two groups of temperature sensors on the basis of a limit value between the two typical temperature profiles of the groups of temperature sensors. On the basis of this, calibration of the controller is carried out for the purpose of adjusting to the established group to which the temperature sensor belongs. | 01-08-2009 |
20090028208 | Analyte collection devices and methods - An aspect of the invention is directed to a method for operating an analyte collection device of the type that includes at least one plate for storing said analyte. An example method comprises the steps of heating the at least one plate to a first temperature, taking a measurement of a property of the at least one plate, and using the measurement to estimate one or more of the amount of the analyte on the plate and the amount of contaminant on the plate. | 01-29-2009 |
20090080490 | Systems, Devices, and/or Methods for Managing a Thermocouple Module - Certain exemplary embodiments can provide a system, which can comprise a thermocouple input module. The thermocouple input module can be adapted to determine one or more calibration factors. The thermocouple input module can be adapted to store the calibration factors. The thermocouple input module can be adapted to apply the calibration factors to an incoming thermocouple voltage value to obtain an adjusted thermocouple voltage value. | 03-26-2009 |
20090086788 | TEMPERATURE SENSOR, DEVICE AND SYSTEM INCLUDING SAME, AND METHOD OF OPERATION - A temperature sensor and device and system including same comprise a switched capacitor circuit configured to generate a noise voltage in response to switching and circuitry configured to generate a relative temperature output signal proportional to an absolute temperature output signal in response to the noise voltage. The device includes a temperature sensors temperature sensitive device logic and temperature compensation logic configured to receive the absolute temperature and generate an adjustment signal to adapt the temperature sensitive device logic in response thereto. A related method for sensing temperature includes amplifying a noise voltage from a switched capacitor circuit in a plurality of parallel amplifier channels and removing amplifier noise from each of the plurality of parallel amplifier channels to form a relative output signal proportional to an absolute temperature. | 04-02-2009 |
20090110022 | THERMISTOR CIRCUIT CALIBRATION - Temperature detection circuitry is selectively coupled to a thermistor and one of two sources representing the impedance at respective ends of the expected range of temperature to which the thermistor is to be exposed. The offset of an amplifier and a scale factor to account for gain set of the amplifier are determined in an automatic calibration process while coupled to the source(s), and thereafter temperature readings are taken from the thermistor. During the calibration process, if the gain or scale factor are outside of expected ranges, a failure is determined and an alarm given and/or a heater is disabled. | 04-30-2009 |
20090110023 | BOLOMETRIC ON-CHIP TEMPERATURE SENSOR - Disclosed are embodiments of an improved on-chip temperature sensing circuit, based on bolometry, which provides self calibration of the on-chip temperature sensors for ideality and an associated method of sensing temperature at a specific on-chip location. The circuit comprises a temperature sensor, an identical reference sensor with a thermally coupled heater and a comparator. The comparator is adapted to receive and compare the outputs from both the temperature and reference sensors and to drive the heater with current until the outputs match. Based on the current forced into the heater, the temperature rise of the reference sensor can be calculated, which in this state, is equal to that of the temperature sensor. | 04-30-2009 |
20090129430 | Method for Monitoring the Functionality of a Temperature Sensor - In a method for monitoring the functionality of a temperature sensor that can deliver an electrical signal as a function of the measured temperature and is disposed, in particular, in the cooling water circuit of an internal combustion engine, the persistence of the temperature sensor in the high signal range is made possible by a method encompassing the following steps: Characterizing the sensor as possibly faulty if the sensor indicates, upon engine shutdown, at least a maximum value of the cooling fluid temperature; determining a first gradient of the cooling fluid temperature, measured by the possibly faulty sensor, up to a first point in time after engine shutdown, and characterizing the sensor as fault-free if the gradient exceeds a minimum value; determining a second gradient of the cooling fluid temperature, measured by the possibly faulty sensor, between the point in time and a point in time after engine shutdown, and characterizing the sensor as fault-free if the second gradient exceeds a minimum value; determining the cooling fluid temperature measured by the possibly faulty sensor at a point in time after engine shutdown, and characterizing the sensor as fault-free if the cooling fluid temperature falls below a maximum value. | 05-21-2009 |
20090147819 | CALIBRATION OF TEMPERATURE CONTROL SYSTEM FOR SEMICONDUCTOR PROCESSING CHAMBER - Methods and systems for calibrating a temperature control system in a vapor deposition chamber. A temperature sensor senses temperature within a semiconductor processing chamber and generates an output signal. A temperature control system controls a chamber temperature by controlling a heating apparatus based on the output signal. A method includes instructing the control system to target a setpoint temperature, and depositing a layer of material onto a surface in the chamber by a vapor deposition process. A variation of a property of the layer is measured while depositing the layer, the property known to vary cyclically as a thickness of the layer increases. The measured property is allowed to vary cyclically for one or more cycles. If there is a difference between a time period of one or more of the cycles and an expected time period associated with the setpoint temperature, the temperature control system is adjusted based on the difference. | 06-11-2009 |
20090147820 | AVOIDING AIR FLOW PENETRATION IN TEMPERATURE MEASUREMENT - In one example embodiment, a board for measuring device temperatures comprises a base and one or more fingers extending from the base. The base and the one or more fingers comprise a flexible material. One or more first temperature sensors are disposed on the one or more fingers. One or more second temperature sensors are disposed on the base. Each of the first and second temperature sensors comprises a partially thermally isolated temperature sensor. | 06-11-2009 |
20090154519 | THERMOMETER CALIBRATION - A method for calibrating a thermometer is provided. The method includes deriving values of at least two different reference calibration coefficients of a reference calibration equation. The reference calibration equation relates temperature of a reference temperature sensor to at least two different calibration coefficients and a measured characteristic of the reference temperature sensor. A primary temperature sensor of the thermometer is calibrated using the derived values of the at least two different reference calibration coefficients. In another method for calibrating a thermometer, value of at least one reference calibration coefficient is derived from a reference calibration equation. The reference calibration equation is a non-linear equation relating the temperature of the reference temperature sensor to the at least one calibration coefficient and a measured characteristic of the reference temperature sensor. | 06-18-2009 |
20090168832 | TEMPERATURE SENSOR DIAGNOSTICS - A temperature sensor diagnostic system for a vehicle comprises a deviation calculation module, a limits determination module, and a fault diagnostic module. The deviation calculation module calculates a deviation coefficient based on a time constant of a temperature sensor and a period between first and second temperatures measured by the temperature sensor, wherein the second temperature is measured after the first temperature. The limits determination module determines upper and lower temperature limits based on the first temperature and the deviation coefficient. The fault diagnostic module selectively diagnoses a fault in the temperature sensor when the second temperature is one of greater than the upper temperature limit and less than the lower temperature limit. | 07-02-2009 |
20090201968 | Apparatus for measuring temperature - An apparatus for ascertaining and/or monitoring at least one temperature. The apparatus includes, according to a first variable, at least one temperature sensor, at least one reference temperature sensor, and at least one heating/cooling unit, which is thermally coupled with the temperature sensor and with the reference temperature sensor. According to a second variant, the invention includes that at least one reference temperature sensor, and the temperature sensor and the reference temperature sensor are embodied and placed in such a manner that they measure essentially the same temperature. At least one head transmitter is provided, which connects the temperature sensor and the reference temperature sensor with the head transmitter in such a manner that the head transmitter receives the data measured by the temperature sensor and the reference temperature sensor. At least one memory unit is provided, in which the measured data of the temperature sensor and the reference temperature sensor are storable. | 08-13-2009 |
20090201969 | CIRCUIT ARRANGEMENT TO ADJUST AND CALIBRATE A MEMS-SENSOR DEVICE FOR FLOW MEASUREMENT OF GASES OR LIQUIDS - Circuitry is disclosed for the calibration of heating element and ambient temperature sensors, comprising: a) an amplifier having positive and negative inputs, and an output; b) one or more heating MOS transistors selectably coupled in parallel and having 1) a heating transistor drain coupled to the positive input of the amplifier; 2) a heating transistor source configured to receive a supply voltage; and 3) a heating transistor gate coupled to the amplifier output; c) one or more ambient MOS transistors selectably coupled in parallel and having 1) an ambient transistor drain, 2) an ambient transistor gate coupled to the amplifier output; and 3) an ambient transistor source configured to receive the supply voltage; d) a temperature difference resistance configured: 1) to be coupled at least partially between an ambient connection and the ambient transistor drain; and 2) to be coupled at least partially between the ambient connection and the negative input of the amplifier. | 08-13-2009 |
20090252193 | Device and Method for Calibrating a Fiber-Optic Temperature Measuring System - A device for calibrating a fiber-optic temperature measuring system has a broadband light source, a coupling-in device, which can couple light generated by the light source for calibration into an optical fiber of the temperature measuring system, a coupling-out device, which can couple components of the light source-generated light that are backscattered in the optical fiber out of the optical fiber. An evaluation device performs a calibration of the temperature measuring system on the basis of the backscattered components of the light. | 10-08-2009 |
20090262776 | METHOD AND APPARATUS FOR CALIBRATING A THERMISTOR - The presently described embodiments are directed to a calibration method and system for thin film thermistors that are locally heated with integrated thin film heaters. Initially, print head temperature is either measured or referenced. Then, transient thermistor resistances are measured and used to determine the thermistor resistance at a higher temperature. Notably, this calibration method is advantageously implemented as a step of an existing process without having to expose the print heads to operating temperatures. In some implementations of the presently described embodiments, trimming of the thermistors may be required once calibrated. | 10-22-2009 |
20090296769 | CALIBRATION OF TEMPERATURE SENSING CIRCUITRY IN AN ELECTRONIC DEVICE - Temperature sensing circuitry is used for thermal management of an electronic device. The temperature sensing circuitry includes at least one thermistor placed at or near a component of the electronic device. The temperature sensing circuitry also includes a high-precision resistor for calibration purposes. The resistance of the resistor is equivalent to the resistance of the thermistor at a reference temperature. A calibration reading is obtained using a set current that is being passed through the resistor. An error present in the temperature sensing circuitry is determined based on the calibration reading and a design value. A temperature measurement associated with the component is then made using the thermistor, while the set current is being passed through the thermistor. The error is corrected in the temperature measurement of the component. Other embodiments are also described. | 12-03-2009 |
20090296770 | FLUORESCENT TEMPERATURE SENSOR - To provide a fluorescent temperature sensor capable of identifying easily the location of a failure. A fluorescent temperature sensor for producing a temperature signal from fluorescent light from a fluorescent material and that has been optically stimulated comprises a light projecting module having an LED for projecting light at the fluorescent material and a second photodiode for receiving light emitted from the LED and a light receiving module having a first photodiode for receiving the light emitted from the fluorescent material, where the location of a failure in the sensor can be identified based on, at least, the output signal from the second photodiode. | 12-03-2009 |
20090310642 | MULTIPLE SENSOR FIBER OPTIC SENSING SYSTEM - A multiple sensor fiber optic sensing system. A method of sensing distributed temperature and at least another property in a well includes the steps of: interconnecting an optical switch to an optical fiber which extends along a wellbore in the well; operating the optical switch to optically connect the optical fiber to an interferometric measurement system; and operating the optical switch to optically connect the optical fiber to a distributed temperature measurement system. Another method includes the steps of: installing an optical fiber along a wellbore in the well, the optical fiber being a first distributed temperature sensor, the installing step including providing a substantial length of the optical fiber proximate a second sensor which senses the well property; and calibrating the second sensor using a temperature sensed by the first sensor in the substantial length of the optical fiber. | 12-17-2009 |
20100002744 | Method And System For Calibrating A Motor Control Circuit To Improve Temperature Measurement In An Electrical Motor - A method enables measurement of an inverter loss within a motor control circuit for an appliance. The method includes applying a constant DC current generated from a first AC supply voltage to a motor winding through an inverter at a first duty cycle, measuring a first voltage corresponding to the current through the motor at a motor current sense resistor, computing a first ratio of the first measured voltage at the motor current sense resistor to a first DC input voltage corresponding to the first AC supply voltage, identifying a second duty cycle from the first computed ratio, comparing the second duty cycle to the first duty cycle, and identifying a first inverter loss factor from the difference between the first duty cycle and the second duty cycle. | 01-07-2010 |
20100008394 | TEMPERATURE AND TEMPERATURE DISTRIBUTION SENSING WITH HIGH RESOLUTION IN MICROSCOPIC ELECTRONIC DEVICES AND BIOLOGICAL OBJECTS - The present invention relates to a method of measuring a temperature and/or temperature distribution at a resolution <1 &mgr; m in an object and to a device for performing such method, more particularly to a microscope for performing such method. The method comprises applying a molecular thermometer embedded in a matrix layer on an object, photoexciting the said molecular thermometer with a light source of said microscope and measuring emission of radiation from said molecular thermometer with two photodetectors of said microscope. A first intensity at a first wavelength is measured by said first detector, a second intensity at a second wavelength is measured by said second.detector, and a ratio of said intensities is calculated and used to determine a temperature with a calibrated curve. Said microscope is a confocal microscope or a stimulated emission depletion (STED) microscope. | 01-14-2010 |
20100020842 | System and method for temperature measurement - A method for precision thermal measurement and control, especially for bioreactors, as well as the correction of temperature sensitive probes such as pH and dissolved oxygen. Typical control requirements are ±0.1° C. The thermal measurement circuit converts a sensor output to a high level voltage or current with great accuracy and provides noise immunity and sensor isolation. While digital outputs from sensor converters can have the greatest noise immunity, the noise associated with digital circuitry may contaminate low level sensor signals so in many cases an analog sensor converter is preferred because of low noise generation, especially if the converter is near the sensor. The circuit is low cost, reliable, generates minimal heat is immune to, and does not generate noise, and requires minimal calibration effort. | 01-28-2010 |
20100054298 | OPTICAL FIBER TEMPERATURE SENSOR - The present invention relates to an optical fiber temperature sensor capable of reducing an error in a temperature measurement. The sensor comprises an optical fiber, an optical frequency difference adjusting section, a light source system, a spectrum measuring section, a temperature calculating section, and a correcting section. The light source system outputs, into different ends of the optical fiber, probe light and pumping light of which each center frequency is set corresponding to an instruction from the optical frequency difference indicating section respectively. The temperature calculating section calculates a temperature of an object based on BGS in a first domain measured by the spectrum measuring section. On the other hand, the correcting section outputs a correction instruction to the light source system so that BGS center frequency of a second domain may be in agreement with a reference value thereof. | 03-04-2010 |
20100098130 | HIGH-PRESSURE TANK TEMPERATURE DETECTION SYSTEM AND HIGH-PRESSURE TANK SYSTEM - In a hydrogen tank, discharge of a hydrogen gas may cause lowering of the temperature to a value at which it is assumed that disconnection has occurred in a thermistor. A temperature detection system for the hydrogen tank estimates the possibility that the temperature of the hydrogen tank is below this temperature value, according to the ambient temperature and the internal pressure. Only when there is no possibility that the temperature is below the value, disconnection is judged to have occurred. | 04-22-2010 |
20100103975 | CALIBRATION APPARATUS - A calibration apparatus for temperature probes comprising an elongate calibration chamber ( | 04-29-2010 |
20100118911 | METHODS FOR MANUFACTURING A CONTACT TEMPERATURE SENSOR AND METHOD FOR CALIBRATING SAID SENSOR - A method for manufacturing a contact temperature sensor to be used at a temperature of use, including a) supplying a carbon fiber; b) heat treating of the fiber at a temperature higher than 800° C. and higher than the temperature of use; c) full layer depositing on the fiber, at a deposition temperature, an electrically insulating ceramic coating layer stable at the temperature of use, the ceramic material chosen among silica (SiO | 05-13-2010 |
20100142583 | System, method, and apparatus for the calibration of analog type thermometers for use in providing temperature quality control in the production of beverage and/or food products - An analog thermometer calibration apparatus may comprise a substantially flat piece of steel or other suitably rigid material having at least one hexagonal or appropriately non-circular shaped aperture or opening formed designed to be at least generally complimentary in size and shape to the calibration adjustment member or projection of an analog type thermometer such that the two may engage in a substantially complimentary manner that will permit rotation of the thermometer readout dial and to prevent the relative rotation of the base or lower portion of the analog thermometer connected to a temperature sensing stem probe during the rotation of the analog thermometer dial face during a calibration procedure. A round or other suitably shaped aperture opening may be included to accommodate support and passage of the temperature sensing probe of a more accurate digital type thermometer (or a recently calibrated thermometer of any type) in order to provide a calibration reference temperature reading. The dial of an analog thermometer may be rotated relative to the base and temperature sensing probe stem portion until the temperature indication pointer on the dial face of the analog thermometer substantially equals or matches the reference temperature reading of the digital thermometer reading or the known temperature of the calibration reference liquid without the need to remove, adjust and/or reinsert the analog thermometer into the calibration reference temperature liquid multiple times to perform an accurate analog thermometer temperature readout calibration process on one or a plurality of analog thermometers in a substantially simultaneous manner. | 06-10-2010 |
20100172391 | Method for Testing a Frying Oil Tester - A method for testing a measuring device is used to determine a permittivity of a frying fat which permittivity is inter alia dependent on the temperature, while taking into consideration the temperature. The method is characterized in that the permittivity is measured at least two different temperatures and the temperature dependence is determined and is used to make a statement on the ability to function of the measuring device. | 07-08-2010 |
20100195693 | ABNORMALITY DETERMINATION APPARATUS AND ABNORMALITY DETERMINATION METHOD FOR OIL TEMPERATURE SENSOR - Until the accuracy in calculation of an estimated oil temperature value which is calculated by means of a heat dissipation amount map reaches a predetermined level, an ECU determines, when a transmission oil temperature well exceeds a predetermined temperature after the engine start, whether or not an oil temperature sensor fails. When it is determined that the oil temperature sensor is normal, the ECU uses the detected oil temperature value to learn about the heat dissipation map. When the accuracy in calculation of the estimated oil temperature value reaches the predetermined level through the learning about the heat dissipation amount map, the ECU determines whether or not the oil temperature sensor fails based on the divergence of the detected oil temperature value relative to the estimated oil temperature value. | 08-05-2010 |
20100226408 | THERMAL DETECTOR TESTING DEVICE - A testing device for testing thermal detectors includes a hollow sleeve, open on at least one end, configured to receive a thermal detector. The hollow sleeve can have a length greater than a diameter. A heater is positioned is in proximity to the hollow sleeve, and is configured to provide heat for testing the thermal detector. The heater can be a flexible foil heater. A power source is provided to supply power to the heater. A power control module can be provided for variably adjusting a set point temperature or a rate of temperature rise for the heater. | 09-09-2010 |
20100246630 | Thermocouple temperature sensor with connection detection circuitry - An assembly includes a thermocouple, a cold junction sensor, and a circuit. The thermocouple has a process end and a cold junction end. The cold junction end has first and second cold junction terminals. The cold junction sensor is supported near the cold junction end and configured to measure temperature at the cold junction end. The circuit is electrically connected to the cold junction sensor and to the first and second cold junction terminals. The circuit is configured to produce a thermocouple signal as a function of voltage across the first and second cold junction terminals and to produce a cold junction sensor signal as a function of temperature of the cold junction end as measured by the cold junction sensor. The circuit is further configured to calculate a correlation between the thermocouple signal and the cold junction sensor signal. | 09-30-2010 |
20100265986 | CALIBRATED ASSEMBLY FOR IR THERMOMETER APPARATUS - A tip assembly for an IR thermometer apparatus includes a heat sink having a heat sink cavity and a tip section and a fluid path and at least one hydraulic port. The tip assembly also includes an IR sensor mechanically seated in the tip section and thermally coupled to the heat sink. The tip assembly also includes an electrical connector configured to provide an electrical connection to the tip assembly. A fluid having a fluid temperature is introduced into the fluid path via the hydraulic port. The fluid causes the heat sink and the IR sensor to substantially reach one or more pre-determined temperatures by thermal conduction during calibration of the tip assembly. Another tip assembly having an internal heat source is described. Another tip assembly having an internal heat pump is described. A method to calibrate a tip assembly is also described. | 10-21-2010 |
20100309947 | METHOD AND ASSEMBLY FOR DETERMINING THE TEMPERATURE OF A TEST SENSOR - Methods and systems accurately determine an analyte concentration in a fluid sample. In an example embodiment, a receiving port receives a test sensor. The test sensor includes a fluid-receiving area for receiving a fluid sample. The fluid-receiving area contains a reagent that produces a measurable reaction with an analyte in the fluid sample. The test sensor has a test-sensor temperature and the reagent has a reagent temperature. A measurement system measures the reaction between the reagent and the analyte. A temperature-measuring system measures the test sensor temperature when the test sensor is received into the receiving port. A concentration of the analyte in the fluid sample is determined according to the measurement of the reaction and the measurement of the test sensor temperature. A diagnostic system determines an accuracy of the temperature-measuring system. The calculation of the analyte concentration may be adjusted according to the accuracy of temperature-measuring system. | 12-09-2010 |
20100316086 | Online calibration of a temperature measurement point - A system for measuring temperature includes a thermowell, a primary temperature sensor, a reference sensor, and a transmitter. The thermowell has a measurement instrument connection and a side port. The primary temperature sensor extends into the thermowell through the measurement instrument connection, and the reference sensor extends into the thermowell through the side port. The transmitter is connected to each of the primary temperature sensor and the reference sensor. The transmitter has circuitry for measuring temperature based upon signals received from the primary temperature sensor and for concurrently calibrating based upon signals received from the reference sensor. | 12-16-2010 |
20110019713 | SYSTEM AND METHOD FOR AUTOMATICALLY CALIBRATING A TEMPERATURE SENSOR - There is provided a system and method for automatically calibrating a temperature sensor. More specifically, there is provided a system including a temperature sensor that includes a first resistance configured to indicate a temperature of the temperature sensor and a second resistance, in series with the first resistor, wherein the second resistance is adjustable to calibrate the first resistance, and a calibration circuit, coupled to the temperature sensor and configured to automatically calibrate the first resistance. | 01-27-2011 |
20110110392 | Method of Calibrating a Position Sensor in a Motor Vehicle Gear - A method of calibrating a position sensor in an automotive transmission having a transmission housing having mounted therein a casing ( | 05-12-2011 |
20110116527 | SELF-CALIBRATING, WIDE-RANGE TEMPERATURE SENSOR - A self-calibrating, wide-range temperature sensor includes a current reference, impervious to process and voltage, with the current reference mirrored into two oppositely-sized bipolar transistors or diodes. Duplicate current sources are used with a ratio of geometries between them, such that the larger current biases the smaller bipolar transistor (less cross-sectional area) and the smaller current source biases the larger bipolar transistor (higher cross-sectional area). The current source in conjunction with the differential temperature sensing provides inherent calibration without drift while the differential sensing, from the ratio of geometries in the current paths also increases sensitivity. | 05-19-2011 |
20110150027 | MECHANICAL AND ELECTRONIC TEMPERATURE READING SYSTEM WITH BUILT-IN FAILURE AND INACCURACY DETECTION - Temperature-indicting system including a mechanical temperature-indicating system including a bourdon tube for directly driving an indicating pointer, and an electrical temperature-indicating system including an electronic sensor, a transmitter and one or more electrical switches. The transmitter is modular and easily replaceable. Output of the pointer and the transmitter is synchronized relative to accuracy so that comparison of switch points of the switches that correlate temperature determined by the mechanical system and temperature determined by the electronic system enables detection of a failure or inaccuracy in one or both systems. | 06-23-2011 |
20110150028 | SELF-CALIBRATION CIRCUIT AND METHOD FOR JUNCTION TEMPERATURE ESTIMATION - The present invention relates to a calibration circuit, computer program product, and method of calibrating a junction temperature measurement of a semiconductor element, wherein respective forward voltages at junctions of the semiconductor element and a reference temperature sensor are measured, and an absolute ambient temperature is determined by using the reference temperature sensor, and the junction temperature of the semiconductor element is predicted based on the absolute ambient temperature and the measured forward voltages. | 06-23-2011 |
20110150029 | APPARATUS AND METHODS FOR TEMPERATURE CALIBRATION AND SENSING - Some embodiments include apparatus and methods having a first switch, a second switch, and a circuit coupled to the first and second switches. The first switch may be configured to switch between an on-state and an off-state based on a value of a first current flowing through a number of resistors and a diode coupled in series with the resistors. The second switch may be configured to switch between the on-state and the off-state based on a value of a second current on a circuit path. The second current is a function of a voltage at a node between two of the resistors and a resistance of the circuit path. The circuit may be configured to provide a temperature reading based on the number of times the first switch or the second switch switches between the on-state and the off-state during a time interval. | 06-23-2011 |
20110164651 | OPEN-LOOP VERTICAL DRYWELL GRADIENT CORRECTION SYSTEM AND METHOD - A system and method are disclosed for controlling a drywell including a receiver having upper and lower ends with the lower end being more insulated than the upper and having a temperature sensor in thermal contact therewith. Upper and lower heaters are in thermal contact with the upper and lower ends respectively. A controller includes an integrated circuit having a temperature sensor. A reading from the integrated circuit is used to control power to the upper heater and reduce a temperature gradient between the upper and lower ends of the receiver. | 07-07-2011 |
20110216803 | SYSTEM AND PROCESS FOR CALIBRATING PYROMETERS IN THERMAL PROCESSING CHAMBERS - A method and system for calibrating temperature measurement devices, such as pyrometers, in thermal processing chambers are disclosed. According to the present invention, the system includes a calibrating light source that emits light energy onto a substrate contained in the thermal processing chamber. A light detector then detects the amount of light that is being transmitted through the substrate. The amount of detected light energy is then used to calibrate a temperature measurement device that is used in the system. | 09-08-2011 |
20110222576 | METHOD FOR CALIBRATING A SUPERHEAT SENSOR - A method for calibrating a superheat sensor ( | 09-15-2011 |
20110249699 | Zero-heat-flux, deep tissue temperature measurement devices with thermal sensor calibration - A zero-heat-flux DTT measurement device is constituted of a flexible substrate supporting an electrical circuit including a heater trace defining a heater, thermal sensors, and a thermal sensor calibration circuit. | 10-13-2011 |
20110286491 | METHOD FOR CALIBRATING AN ELECTRONIC CHIP, ELECTRONIC CHIP AND HEAT PATTERN DETECTOR FOR THIS METHOD - This method for calibrating an electronic chip comprises:
| 11-24-2011 |
20110286492 | SENSOR, AND METHOD FOR CONTINUOUSLY MEASURING THE FOULING LEVEL | 11-24-2011 |
20110299562 | Diverse and Redundant Resistance Temperature Detector - A diverse and redundant resistance temperature detector (“D&R RTD”) is provided. The D&R RTD is utilized in obtaining temperature readings in environments, such as fluids and gasses, by measuring electrical characteristics of the D&R RTD that are influenced by the temperature. Furthermore, the D&R RTD's are arranged such that a plurality of measurements can be obtained, which provides sufficient diversity and redundancy of the measurements for enhanced diagnostics to be performed, such as optimization for fast dynamic response, calibration stability, in-situ response time testability, and in-situ calibration testability. | 12-08-2011 |
20120027044 | INSTRUMENTATION AND METHOD FOR OPTICAL MEASUREMENT OF SAMPLES - An optical measurement instrument includes one or more temperature sensors ( | 02-02-2012 |
20120033705 | METHOD AND DEVICE FOR DIAGNOSING A THERMOSTAT - In a method for diagnosing a faulty thermostat in a coolant circuit, in particular for an internal combustion engine, having a fan, the faulty thermostat is detected as a function of a measured temperature and a setpoint temperature, the fan being turned on at least temporarily during the diagnosis. | 02-09-2012 |
20120069865 | Method for Testing a Thermography Apparatus, Designed for Carrying out a Thermography Method, for its Correct Operation, Test Component Therefor and Method for its Production - A test component coated with a coating system is provided. In at least one defined region of the test component, there is a delamination having defined properties deliberately introduced into the coating system. The test component may be employed in a method for testing a thermography apparatus that is designed for carrying out a thermography method, for its correct operation with a view to the detection of delaminations. In order to test the thermography apparatus, the at least one defined delamination of the coating system is detected on the test component by using the thermography method employed in the thermography apparatus. | 03-22-2012 |
20120106589 | BODY TEMPERATURE MEASURING SYSTEM, DATA READING DEVICE, AND DRIVING CONTROL METHOD THEREOF - In a body temperature measuring system, power consumption of a data reading device is reduced. A clinical thermometer of this invention is a body temperature measuring system including a body temperature tag and a data reading device. A processing unit of the body temperature tag includes a power supply circuit, a semiconductor temperature sensor for detecting a band gap voltage, and a storage unit configured to store calibration data to calibrate the detected band gap voltage, and is configured to, upon activating the power supply circuit, send the detected band gap voltage via the antenna unit together with the calibration data. The data reading device includes an excitation unit, and a sensing unit configured to sense a change in a magnetic field generated by excitation. The power level of the excitation unit is changed upon sensing the change in the magnetic field. | 05-03-2012 |
20120106590 | THERMOSTAT DIAGNOSTIC APPARATUS - A thermostat diagnostic apparatus is provided with a cooling medium temperature sensor, an engine operating condition sensor and a malfunction diagnosing device. The malfunction diagnosing device is configured to diagnose a stuck-open malfunction of a thermostat provided in a coolant flow passage of an engine installed in a mobile body based on a comparison of a real cooling medium temperature detected by the cooling medium temperature sensor and an estimated cooling medium temperature estimated based on an engine operating condition of the engine detected by the engine operating condition sensor. The malfunction diagnosing device determines that the thermostat is stuck in an open state upon determining that either the estimated cooling medium temperature or the real cooling medium temperature exceeds a prescribed reference value during a period in which an increased heat exchange rate condition of a radiator is satisfied continuously. | 05-03-2012 |
20120120981 | METHOD AND DEVICE FOR MONITORING A COMPONENT ARRANGED IN AN EXHAUST REGION OF AN INTERNAL COMBUSTION ENGINE - The invention relates to a method for monitoring a sensor unit ( | 05-17-2012 |
20120140789 | System for verifying temperature measurement - The present application is directed to a system for verifying calibration of a temperature sensor comprising an above-ambient temperature verifier and a below-ambient temperature verifier. The above-ambient temperature verifier includes a first housing containing an ohmic material. At least one pair of electrodes is provided to direct an applied current through the ohmic material to heat the material. A well is provided within the ohmic material for accepting a temperature sensor. A compression assembly cooperates with the ohmic material to create intimate contact with the temperature sensor. An above-ambient reference temperature monitor maintains a calibrated temperature within the ohmic material. The below-ambient temperature verifier includes a second housing and a below-ambient reference temperature monitor to maintain a calibrated temperature of a below-ambient temperature medium. The system further includes the ability to log all temperature test measurements from an RFID tag located on each temperature sensor to be verified. | 06-07-2012 |
20120170608 | METHOD OF CALIBRATING A TEMPERATURE SENSOR OF A CHEMICAL MICROREACTOR AND ANALYZER FOR BIOCHEMICAL ANALYSES - A method of calibrating a temperature sensor of a chemical microreactor envisages: determining an airflow along a path in such a way as to cause a thermal exchange between the airflow and a chemical microreactor, which is provided with an on-board temperature sensor and is set along the path; and detecting a temperature in the airflow downstream of the microreactor, in conditions of thermal equilibrium. | 07-05-2012 |
20120201267 | LOW TEMPERATURE MEASUREMENT AND CONTROL USING LOW TEMPERATURE PYROMETRY - Embodiments of the present invention generally relate to methods and apparatus for measuring, calibrating, and controlling substrate temperature during low temperature and high temperature processing. In one embodiment, the method includes epitaxially forming a layer stack on a substrate placed on a support plate, measuring a temperature of the substrate with a first pyrometer disposed over the substrate, measuring a temperature of the support plate with a second pyrometer disposed below the support plate, calibrating the first pyrometer at multiple temperature points based on actual temperature readings of the substrate to generate a first set of calibrated temperature readings associated with the substrate, calibrating the second pyrometer using the set of calibrated temperature readings as a reference to generate a second set of calibrated temperature readings associated with the support plate, and controlling a power supplied to a heat source configured to heat the substrate based on the second set of calibrated temperature readings. | 08-09-2012 |
20120219033 | APPARATUS FOR DETECTING TEMPERATURE OF SWITCHING ELEMENTS - A temperature detecting apparatus includes an integrated circuit that integrates an overheating detecting circuit, a breakage detecting circuit and a disabling circuit, and an element connection terminal connecting a temperature sensing element. The disabling circuit disables the breakage detecting circuit from detecting a breakage of wire when a voltage at the element connection exceeds a disabling threshold which is set higher than an overheating detection threshold and a breakage detection threshold. A predetermined voltage higher than the disabling threshold is applied to the element connection terminal when the temperature sensing element is not connected to the element connection terminal. | 08-30-2012 |
20120224602 | CALIBRATION OF AN ON-DIE THERMAL SENSOR - A method of calibrating a thermal sensor includes setting a wafer to a control temperature. The wafer includes the thermal sensor and other chip logic. The method also includes applying power exclusively to a thermal sensor circuit, calibrating the thermal sensor, and storing a calibration result. The method also includes retrieving the calibration result upon application of power to the other chip logic. | 09-06-2012 |
20120236899 | THERMOCOUPLE AND METHOD OF FORMING A THERMOCOUPLE ON A CONTOURED GAS TURBINE ENGINE COMPONENT - A method of forming a thermocouple ( | 09-20-2012 |
20120250721 | TEMPERATURE MEASUREMENT CIRCUIT AND TEMPERATURE MEASUREMENT METHOD - A temperature measurement circuit includes a sensing unit and a temperature translation unit. The sensing unit is arranged for generating a positive temperature coefficient characteristic and a negative temperature coefficient characteristic according to a temperature. The temperature translation unit is coupled to the sensing unit, and is arranged for generating a measured temperature according to the positive temperature coefficient characteristic and the negative temperature coefficient characteristic. | 10-04-2012 |
20120250722 | Calibrated Fire Detection Cable - A system and method for providing greatly improved linear heat detection using fiber optic distributed temperature systems (DTS). The invention makes use of correction algorithms based on proportional-integral-derivative notions that anticipate exterior temperature increases based on the rate of measured temperature changes. | 10-04-2012 |
20120275484 | TEMPERATURE MEASURING DEVICE, TEMPERATURE CALIBRATING DEVICE AND TEMPERATURE CALIBRATING METHOD - A temperature measuring device which measures a temperature of a heat treatment mechanism in a heat treatment apparatus which heat-treats a substrate with a predetermined temperature using the heat treatment mechanism, includes: a substrate and a Wheatstone bridge circuit which is disposed on the substrate and includes a plurality of temperature-measuring resistors whose resistance is varied depending on a change in temperature. | 11-01-2012 |
20120275485 | Cargo Deck For A Cargo Hold Of An Aircraft And Method For Monitoring The Temperature Of A Container, A Pallet Or A Similar Unit Load Device (ULD) Disposed On A Cargo Hold Floor - Disclosed is a cargo deck for a cargo hold of an aircraft, comprising at least one temperature measuring device for non-contacting measurement of the temperature of a container, a pallet or a similar unit load device (ULD). | 11-01-2012 |
20120294327 | Methods And Systems For Temperature Compensated Temperature Measurements - Methods and systems for compensating temperature measurements by a temperature gauge comprising a first temperature sensor and a second reference temperature sensor, having different thermal properties, located in the same temperature environment to be measured. The methods and systems compensate for errors in the measured temperatures due to variations in the reference sensor caused by temperature effects. | 11-22-2012 |
20120307859 | Imaging Measuring System and Measuring Method for Measuring Thermal Output to a Target Object - An imaging thermographic measuring system to measure the thermal output (Q | 12-06-2012 |
20130003776 | Zero-Heat-Flux, Deep Tissue Temperature Measurement Devices with Thermal Sensor Calibration - A zero-heat-flux DTT measurement device is constituted of a flexible substrate supporting an electrical circuit including a heater trace defining a heater, thermal sensors, and a thermal sensor calibration circuit. | 01-03-2013 |
20130003777 | Multi Wavelength DTS Fiber Window with PSC Fiber - A DTS system resistant to hydrogen induced attenuation losses during the service life of an installation at both low and high temperatures using matched multi-wavelength DTS automatic calibration technology in combination with designed hydrogen tolerant Pure Silica Core (PSC) optical fibers. | 01-03-2013 |
20130022075 | TEMPERATURE SENSOR HAVING MEANS FOR IN-SITU CALIBRATION - A temperature sensor is disclosed as having a resistance thermocouple, accommodated in a sensor housing, for detecting a process temperature. The thermocouple can be connected via a multipole electric line to an electronic temperature transmitter for measured-value conditioning, the resistance thermocouple being equipped for in-situ calibration with a Johnson noise thermometer for determination of a reference temperature. | 01-24-2013 |
20130028285 | THERMOCOUPLE ABNORMALITY DETECTION SYSTEM AND DETECTION METHOD THEREOF - According to one embodiment, a thermocouple abnormality detection system including: a plurality of thermocouples each including a plurality of thermocouple wires housed in a sheath; a transmission signal conversion unit configured to convert a thermo-electromotive force generated by each of the plurality of the thermocouple wires to a transmission signal and to output the transmission signal; a transmission unit configured to transmit the transmission signal outputted from the transmission signal conversion unit; and an abnormality detection circuit configured to detect an abnormality of each of the plurality of the thermocouples by comparing, with each other, the transmission signals obtained from the plurality of thermocouple wires provided in each of the thermocouples. | 01-31-2013 |
20130028286 | System and Process for Calibrating Pyrometers in Thermal Processing Chambers - A method and system for calibrating temperature measurement devices, such as pyrometers, in thermal processing chambers are disclosed. According to the present invention, the system includes a calibrating light source that emits light energy onto a substrate contained in the thermal processing chamber. A light detector then detects the amount of light that is being transmitted through the substrate. The amount of detected light energy is then used to calibrate a temperature measurement device that is used in the system. | 01-31-2013 |
20130070804 | METHOD FOR ESTIMATING AMBIENT AIR TEMPERATURE PRIOR TO COMBUSTION IN AN INTERNAL COMBUSTION ENGINE - A method to estimate ambient air temperature in the vicinity of a vehicle equipped with an internal combustion engine equipped with at least an ignition and an electronic control unit (ECU) with memory. | 03-21-2013 |
20130070805 | ON-CHIP TEMPERATURE SENSOR USING INTERCONNECT METAL - An accurate, cost-efficient temperature sensor may be integrated into an integrated circuit (IC) using common materials as the IC's interconnect metallization. The temperature sensor may include an impedance element having a length of metal made of the interconnect metal, a current source connected between a first set of contacts at opposite ends of the impedance element, and an analog-to-digital converter connected between a second set of contacts at opposite ends of the impedance element. The temperature sensor may exploits the proportional relationship between the metal's resistance and temperature to measure ambient temperature. Alternatively, such a temperature sensor may be used on disposable chemical sensors where the impedance element is made of a common metal as conductors that connect a sensor reactant to sensor contacts. In either case, because the impedance element is formed of a common metal as other interconnect, it is expected to incur low manufacturing costs. | 03-21-2013 |
20130083820 | Sensor Calibration - A method of calibrating a reversible-binding sensor for detecting an analyte includes:
| 04-04-2013 |
20130107905 | CALIBRATED AIRFLOW SENSOR FACILITATING MONITORING OF ELECTRONIC SYSTEM COOLING | 05-02-2013 |
20130121366 | METHODS OF MEASURING CONDITIONS OF AN ULTRASONIC INSTRUMENT - A method of measuring conditions of an ultrasonic instrument includes providing an ultrasonic instrument that includes an end effector and a waveguide operably coupled to a generator and the end effector. The method involves generating one or more pulses with the generator, transmitting the one or more pulses to one or both of the waveguide and the end effector, generating one or more waves that scatter in an interferential pattern in response to the transmission of the one or more pulses, registering a signal indicative of the interferential pattern, generating an actual interferential pattern based upon the signal, and identifying one or more conditions of the end effector based upon the actual interferential pattern. | 05-16-2013 |
20130121367 | SENSOR AUTO-CALIBRATION - Aspects of the disclosure relate to computing technologies. In particular, aspects of the disclosure relate to mobile computing device technologies, such as systems, methods, apparatuses, and computer-readable media for improving calibration data by increasing the diversity of orientations used for generating the calibration data. In one embodiment, the computing device receives a plurality of calibration measurements associated with one or more sensors of a device, determines a degree to which the plurality of calibration measurements were captured at different orientations of the device, and determines, based on the degree, whether to update one or more calibration parameters. | 05-16-2013 |
20130136149 | TEMPERATURE SENSOR WITH DIGITAL TRIM AND TRIMMING METHOD THEREOF - A method for calibrating a temperature sensor comprises: receiving first and second reference voltages from respective first and second tap points within a string of sequentially connected resistive devices of the temperature sensor. Each resistive device has a resistance that varies as a function of temperature. The receiving is performed at two or more known temperatures. A respective code is output corresponding to each respective one of the two or more known temperatures, based on the first and second reference voltages. At least one of the tap points is adjusted, based on the two or more known temperatures and the respective output codes. | 05-30-2013 |
20130148687 | OPEN-LOOP VERTICAL DRYWELL GRADIENT CORRECTION SYSTEM AND METHOD - A system and method are disclosed for controlling a drywell including a receiver having upper and lower ends with the lower end being more insulated than the upper end having a temperature sensor in thermal contact therewith. Upper and lower heating elements are in thermal contact with the upper and lower ends, respectively. A controller includes an integrated circuit having a temperature sensor. A reading from the integrated circuit is used to control power to the upper heating element and reduce a temperature gradient between the upper and lower ends of the receiver. | 06-13-2013 |
20130163633 | THERMOCOUPLE WELDING TEST APPARATUS - A thermocouple welding test apparatus for testing whether a thermocouple is normally welded includes a first comparison circuit, a second comparison circuit, a switch circuit and an indication circuit. The first comparison circuit receives a first DC voltage from the thermocouple, and compares the first DC voltage with a first reference voltage to output a first control signal. The second comparison circuit receives a second DC voltage from the thermocouple, and compares the second DC voltage with a second reference voltage to output a second control signal. The switch circuit receives the first control signal and the second control signal, and outputs an indication signal accordingly. The indication circuit receives the indication signal, and indicates whether the thermocouple is normally welded accordingly. | 06-27-2013 |
20130182741 | ONLINE CALIBRATION OF A TEMPERATURE MEASUREMENT POINT - A method for calibrating a transmitter with measurement circuitry electrically connected to first and second input terminals includes connecting a primary temperature sensor to the first input terminal and connecting a calibrated reference device to the second input terminal. The measurement circuitry is calibrated with respect to the first input terminal according to signals received from the second input terminal while measuring temperature according to signals received from the first input terminal. | 07-18-2013 |
20130202008 | MONITORING CIRCUIT AND METHOD - A monitoring circuit for an integrated circuit comprises a non-temperature-inverted circuit and a temperature-inverted circuit. Operating parameters of the two circuits are measured, representing the propagation speed of signals in the respective circuits. In response to a change in temperature, the non-temperature-inverted circuit slows down and the temperature-inverted circuit speeds up. In contrast, in response to a change in operating voltage both circuits either speed up or slow down. This divergence in response to temperature and similar response to voltage enables the monitoring circuit to distinguish between changes in operating voltage and changes in operating temperature. | 08-08-2013 |
20130208758 | SENSING AND MONITORING APPARATUS - There is described a monitoring apparatus comprising at least three sensors capable of detecting a characteristic of a fluid, the sensors located within a fluid to be monitored; each sensor comprising a probe arranged to enclose a temperature sensing device; a power circuit including a first current source, a second current source and a third current source, the first current source connected to a first temperature sensing device, the second current source connected to a second temperature sensing device, the third current source connected to a third temperature sensing device, the first current source and the second current source arranged to power respective first and second temperature sensing devices so as to cause self heating of the first temperature sensing device and the second temperature sensing device to a first temperature; the third current source arranged to power the third temperature sensing device so as to cause a minimum self heating of the third sensing device to a second temperature; wherein the first temperature is a higher temperature relative to the second; a sensing circuit connected to each said sensor, each circuit comprising a member arranged to compare the voltage across a temperature sensing device and to output a signal indicative of a response of the probe of the temperature sensing device, a first comparator and a second comparator and a comparison circuit for comparing the response of the second temperature sensing device with the response of the first temperature sensing device and adapted to output a second compare signal, and an output circuit adapted to receive a test signal and comprising means for indicating the characteristics of the fluid to be monitored. | 08-15-2013 |
20130294475 | TEMPERATURE VERIFICATION FOR ULTRASONIC FLOW METERS - Apparatus and methods for verifying temperature measurements in an ultrasonic flow meter. In one embodiment, an ultrasonic flow metering system includes a passage for fluid flow, a temperature sensor, and an ultrasonic flow meter. The temperature sensor is disposed to measure temperature of fluid flowing in the passage. The ultrasonic flow meter includes a plurality of pairs of ultrasonic transducers and control electronics. Each pair of transducers is configured to form a chordal path across the passage between the transducers. The control electronics are coupled to the ultrasonic transducers. The control electronics are configured to measure speed of sound between each pair of transducers based on ultrasonic signals passing between the transducers of the pair. The control electronics are also configured to determine, based on the measured speeds of sound, whether a measured temperature value provided by the temperature sensor accurately represents temperature of the fluid flowing in the passage. | 11-07-2013 |
20130308674 | SYSTEM AND METHOD FOR CONDUCTING HEATING, VENTILATION, AND AIR CONDITIONING ANALYTICS - A system and method for conducting heating, ventilation, and Air Conditioning Analytics is disclosed. The system uses one or more wireless pneumatic thermostats (WPT) and/or various other sensors in communication with a control device to maintain, troubleshoot, calibrate, optimize, or otherwise adjust an installed pneumatic HVAC system. | 11-21-2013 |
20130315276 | TEMPERATURE MEASUREMENT SYSTEM AND METHOD - In one or more implementations, a temperature measuring system is provided, including a temperature sensing probe having (a) a thermistor operatively connected to a first conductor and (b) a resistor operatively connected to a second conductor, and a temperature determination application stored in a memory of a computing device operatively connected to the temperature sensing probe. When executed by a processor of the computing device, the temperature determination application configures the computing device to: transmit a first instance of a signal to the first conductor, receive a temperature signal from the thermistor, the temperature signal corresponding to the first instance of the signal as output from the thermistor, transmit a second instance of the signal to the second conductor, receive a reference signal from the resistor, the reference signal corresponding to the second instance of the signal as output from the resistor, process the temperature signal and the reference signal to determine a relationship between the temperature signal and the reference signal, and compute a temperature based on the relationship. | 11-28-2013 |
20130343421 | CHARGE FLOW TEMPERATURE ESTIMATION - An engine air system for charge flow temperature estimation includes a charge air cooler outlet temperature sensor configured to provide a first temperature signal, an exhaust gas recirculation outlet temperature sensor configured to provide a second temperature signal, and a control module configured to receive the first temperature signal and the second temperature signal. The control module includes a charge flow temperature estimation module configured to determine an the estimated charge flow temperature at an intake manifold temperature sensing position based on a combination of the first temperature signal multiplied by an estimated fresh air fraction and the second temperature signal multiplied by an exhaust gas recirculation fraction. | 12-26-2013 |
20140056325 | DUAL THERMISTOR REDUNDANT TEMPERATURE SENSOR - A redundant temperature measurement probe is described that may include any number of features. In one embodiment, the probe includes a pair of resistive sensors, a pair of output wires, and a shared ground wire for a total of three wires. The first and second resistive sensors of the probe can be electrically connected to a controller to measure temperature and detect when a fault in the probe occurs. In some embodiments, the controller can be configured to detect a shift in resistance | 02-27-2014 |
20140064320 | CALIBRATED AIRFLOW SENSOR FACILTIATING MONITORING OF ELECTRONIC SYSTEM COOLING - A calibrated airflow monitoring method is provided. The monitoring method which includes: providing an airflow sensor positioned within an electronic system to be at least partially air-cooled, the airflow sensor including at least one temperature sensor and a heater associated with one temperature sensor of the at least one temperature sensor; calibrating, with the airflow sensor positioned within the electronic system, a duty cycle for use in powering the heater associated with the one temperature sensor; and providing a controller configured to use the calibrated duty cycle in powering the heater of the temperature sensor during airflow monitoring of the electronic system, and to obtain a hot temperature (T | 03-06-2014 |
20140086273 | TEMPERATURE SIMULATOR FOR THERMOCOUPLE-BASED RF ABLATION SYSTEM - Testing a thermocouple-based RF ablation system is carried out by connecting a temperature simulator to an ablator module. The ablator module is operative to vary a radiofrequency power output thereof in a predefined manner in response to predefined variations in a temperature signal from the simulator. The method is further carried out by delivering RF power from the ablator module to the temperature simulator, and while delivering RF power, performing the steps of: communicating temperature signals from the temperature simulator to the ablator module, varying the communicated temperature signals, and verifying that a variation in the power output of the ablator module in response to varying the temperature signals conforms to the predefined manner. | 03-27-2014 |
20140092933 | COMPOUND CALIBRATOR FOR THERMAL SENSORS - The present invention, in one aspect, provides systems and methods for using a single slug or multiple slugs containing one or more calibrators to determine a relationship between temperature and an electrical characteristic of the thermal sensor for use in connection with calibrating thermal sensors. In some embodiments, the present invention uses the described calibrator systems and methods to calibrate thermal control elements on a microfluidic device. In non-limiting embodiment, the calibrator can be one or more of droplets, plugs, slugs, segments or a continuous flow of any appropriate solution that, when heated, yields a thermal response profile with a plurality of features (e.g., maxima, minima, inflection points, linear regions, etc.). | 04-03-2014 |
20140112367 | CALIBRATION OF A HAND-HELD MEDICAL DEVICE BY A MOBILE DEVICE - Systems, methods and apparatus are provided through which in some implementations a non-contact thermometer is diagnosed and calibrated under instruction of a mobile phone. | 04-24-2014 |
20140112368 | ONLINE CALIBRATION OF A TEMPERATURE MEASUREMENT POINT - A method for calibrating a transmitter with measurement circuitry electrically connected to first and second input terminals includes connecting a primary temperature sensor to the first input terminal and connecting a calibrated reference device to the second input terminal. The measurement circuitry is calibrated with respect to the first input terminal according to signals received from the second input terminal while measuring temperature according to signals received from the first input terminal. | 04-24-2014 |
20140119398 | METHOD AND APPARATUS FOR DETERMINING AN OPERATING TEMPERATURE OF AN ELECTRIC MOTOR - In order to determine an operating temperature of an electric motor which is fed via an inverter, the inverter is first of all permanently assigned to an electric motor. Following calibration of measured value of at least one operating parameter of the electric motor by the assigned inverter on the production line of the electric motor and inverter, at least one measured value of at least one operating parameter of the electric motor is then acquired by the assigned inverter during operation of the electric motor and the operating temperature of the electric motor is determined using this at least one measured value and the calibration result from the assigned inverter. | 05-01-2014 |
20140126605 | METHOD AND DEVICE FOR DETERMINING A TEMPERATURE OF A SHEATHED-ELEMENT GLOW PLUG DURING OPERATION IN AN INTERNAL COMBUSTION ENGINE - A method for determining the temperature of a sheathed-element glow plug during operation in an internal combustion engine is described, in which a temperature-resistance reference correlation is determined. In order to reduce the tolerance range of a sheathed-element glow plug, after the sheathed-element glow plug has been installed in the internal combustion engine, a calibration step is carried out in which, with the aid of the temperature-resistance reference correlation determined prior to the installation of the sheathed-element glow plug in the internal combustion engine, a temperature-resistance correlation specific to the sheathed-element glow plug is ascertained, from which the temperature of the sheathed-element glow plug during operation of the sheathed-element glow plug in the internal combustion engine is determined. | 05-08-2014 |
20140133516 | TEMPERATURE DETECTING CIRCUIT - A temperature detecting circuit includes a first thermistor, a second thermistor, a first pull-up resistor, and a second pull-up resistor. The first thermistor has a first positive-side terminal. The second thermistor has a second positive-side terminal. The first thermistor and the second thermistor have different detection sensitivities to temperature. The first pull-up resistor is connected between the first thermistor and a power supply. The second pull-up resistor is connected between the second thermistor and the power supply. The first pull-up resistor and the second pull-up resistor have different resistances. The first pull-up resistor and the second pull-up resistor have such resistances that, in a state where the first positive-side terminal and the second positive-side terminal are short-circuited to each other, the first thermistor detects a temperature as a temperature lower than an actual temperature, and the second thermistor detects a temperature as a temperature higher than an actual temperature. | 05-15-2014 |
20140140364 | PRECISION TEMPERATURE MEASUREMENT DEVICES, SENSORS, AND METHODS - A precision temperature sensing system includes a heater and a sensing element disposed on a semiconductor substrate. A power source drives the heater on a periodic basis according to a received clock signal. The sensing element senses the heat emitted by the heater and diffused through the semiconductor substrate. Processing circuitry coupled to the sensing element adjusts a phase of the periodic heater driving signal based on the heat sensed by the sensing element. The processing circuitry determines a temperature based on a thermal diffusivity (TD) of the semiconductor substrate, the adjusted value of the phase, and a known distance between the heater and the sensing element. A second temperature sensor can be disposed on the same substrate as the precision temperature sensing system, and calibrated based on temperature measurements obtained while applying a reference frequency signal to the precision sensing system. | 05-22-2014 |
20140146845 | THERMALLY DETERMINING FLOW AND/OR HEAT LOAD DISTRIBUTION IN PARALLEL PATHS - A method including obtaining calibration data for at least one sub-component in a heat transfer assembly, wherein the calibration data comprises at least one indication of coolant flow rate through the sub-component for a given surface temperature delta of the sub-component and a given heat load into said sub-component, determining a measured heat load into the sub-component, determining a measured surface temperature delta of the sub-component, and determining a coolant flow distribution in a first flow path comprising the sub-component from the calibration data according to the measured heat load and the measured surface temperature delta of the sub-component. | 05-29-2014 |
20140153607 | CALIBRATING THERMAL BEHAVIOR OF ELECTRONICS - A method includes determining a relationship between indirect thermal data for a processor and a measured temperature associated with the processor, during a calibration process, obtaining the indirect thermal data for the processor during actual operation of the processor, and determining an actual significant temperature associated with the processor during the actual operation using the indirect thermal data for the processor during actual operation of the processor and the relationship. | 06-05-2014 |
20140161149 | Temperature Sensor Peripheral Having Independent Temperature Coefficient And Offset Adjustment Programmability - A temperature sensor peripheral generates an output voltage that is proportional to temperature, whose temperature coefficient can be adjusted to any desired value, whose temperature coefficient can be either positive or negative, whose room temperature voltage can be adjusted to any desired value, and whose temperature coefficient and room temperature voltage adjustments are independent from one another. | 06-12-2014 |
20140169398 | TEMPERATURE DETECTOR HAVING DIFFERENT TYPES OF INDEPENDENT SENSORS - The present disclosure is directed to a temperature detector for detecting a temperature of a component. The temperature detector may receive a first signal indicative of the temperature of the component, with the first signal being received from a first type of temperature sensor. The temperature detector may further receive a second signal indicative of the temperature of the component, with the second signal being received from a second type of temperature sensor different from the first type of temperature sensor. The temperature detector may combine the first and second signals to generate an output indicative of the temperature of the component. | 06-19-2014 |
20140185646 | SYSTEMS, DEVICES, AND/OR METHODS FOR MANAGING A THERMOCOUPLE MODULE - Certain exemplary embodiments can provide a system, which can comprise a thermocouple input module. The thermocouple input module can be adapted to determine one or more calibration factors. The thermocouple input module can be adapted to store the calibration factors. The thermocouple input module can be adapted to apply the calibration factors to an incoming thermocouple voltage value to obtain an adjusted thermocouple voltage value. | 07-03-2014 |
20140192834 | APPARATUS FOR CALIBRATION OF TEMPERATURE SENSORS - A calibration body ( | 07-10-2014 |
20140198820 | SYSTEMS AND METHODS FOR AN AUTO-RANGING TEMPERATURE SENSOR - Systems and methods for an auto-ranging temperature sensor are provided. In at least one embodiment, a system for sensing and measuring temperature comprises at least one analog signal amplifier that generates an amplified analog signal output based on an analog signal from at least one of a biased thermistor circuit and a calibration circuit and a digital to analog converter that generates an analog offset signal as an input to the at least one analog signal amplifier, wherein the analog offset signal shifts the amplified analog signal within an analog to digital converter input operating range when the amplified analog signal is equal to or greater than a limit of the analog to digital converter input operating range, wherein the analog offset signal is determined based on the magnitude of the amplified analog signal. | 07-17-2014 |
20140233600 | METHOD AND APPARATUS FOR AUTO-CORRECTING THE DISTRIBUTED TEMPERATURE SENSING SYSTEM - System and method for correcting the potential errors occurring in a fiber optic temperature measurement system are disclosed. In one respect, a dual light sources configuration is provided. The primary light source may illuminate a sensing fiber, and an Anti-Stokes band may be detected. The secondary light source may illuminate a sensing fiber, and a Rayleigh band may be detected, where the Rayleigh band is substantially wide enough to cover the Anti-Stokes band of the primary light source. A ratio between these Anti-Stokes and the Rayleigh bands may be used to measure the temperature and undesired errors due to the perturbations falling on the sensing fiber is continuously corrected. | 08-21-2014 |
20140241393 | DEVICE FOR CALIBRATING TEMPERATURE, AND METHODS FOR CALIBRATING THE TEMPERATURE OF AND POSITIONING A FIBER-OPTIC TEMPERATURE SENSOR - The invention relates to a device ( | 08-28-2014 |
20140254622 | METHOD FOR VERIFYING A TEMPERATURE MEASUREMENT IN A MICRO-ENVIRONMENT AND SYSTEM FOR VERIFYING A TEMPERATURE MEASUREMENT IN A MICRO-ENVIRONMENT - The present invention pertains to a method suitable for analysing the temperature control of a device which is supposed to establish a defined temperature in a micro-environment, said method comprising a first Optical Temperature Verification step which comprises
| 09-11-2014 |
20140269809 | Gas Sensors and Methods of Calibrating Same - A method is provided for calibrating a thermal conductivity sensor in a first medium A from measurements in a second medium B. The method includes maintaining the sensor at a substantially fixed temperature T | 09-18-2014 |
20140269810 | Semiconductor Device and Method of Calibrating Warpage Testing System to Accurately Measure Semiconductor Package Warpage - A warpage test system uses a calibration block to calibrate the warpage test system over a temperature profile. The calibration block includes a first metal block bonded to a second metal block. The first metal block includes a first metal and a second different metal. The first metal block includes a CTE different than a CTE of the second metal block. The calibration block is disposed in the warpage test system. A warpage of the calibration block is measured over a temperature profile ranging from 28° C. to 260° C. A deviation between the measured warpage of the calibration block and a known thermal expansion of the calibration block over the temperature profile is recorded. The warpage measurement in a semiconductor package is compensated by the deviation between the measured warpage of the calibration block and the known thermal expansion or warpage of the calibration block over the temperature profile. | 09-18-2014 |
20140269811 | METHOD AND APPARATUS FOR DETERMINING A THERMAL STATE OF A BATTERY TAKING INTO ACCOUNT BATTERY AGING - An electronic system, or its battery thermal management system, determines a thermal state of a battery used in the electronic system. A temperature at a position proximate the battery's cell is sensed during operation of the electronic system to produce a sensed value. Additionally, a temperature offset value is determined based on an aging factor for the battery. The sensed value is then adjusted based on the offset value to produce an adjusted value representative of the thermal state of the battery. According to one embodiment, a relationship between temperature offset value and battery aging factor is prestored in a memory of the electronic system. In such a case, the offset value may be retrieved from memory periodically or in response to a trigger event based on a determined aging factor. According to another embodiment, the offset value may be computed in real time based on a determined aging factor. | 09-18-2014 |
20140269812 | Method and Apparatus for Probe Calibration - A temperature probe for determining a calibrated temperature value is described. The temperature probe includes a sensing element, a memory, and a probe communication interface. The sensing element provides a measured value corresponding to a temperature of the temperature probe. The memory stores calibration data from a calibration procedure performed on the temperature probe. The probe communication interface outputs the measured value and the calibration data for determination of the calibrated temperature value. | 09-18-2014 |
20140269813 | TEMPERATURE AND POWER SUPPLY CALIBRATION - This document discusses, among other things, a temperature and power supply calibration system configured to compensate for temperature and supply voltage variation in MEMS or other circuits using representations of positive and negative supply voltages and first and second base-emitter voltages, wherein the second base-emitter voltage is a scaled representation of the first base-emitter voltage. | 09-18-2014 |
20140286372 | SENSOR FAILURE DETECTION DEVICE, AND METHOD - A sensor failure detection device includes a storage, a predictor, a calculator and a detector. The storage stores temperature information of individual sensors. The temperature information includes measured values of temperatures. The measured values of temperatures are measured by a plurality of sensors. The predictor predicts a temperature distribution by performing a thermal fluid simulation, on the basis of the temperature information received from a remaining sensor. The remaining sensor is a sensor of the plurality of sensors other than the test target sensor. The calculator calculates a difference value between a temperature at a position of the test target sensor in the temperature distribution and a temperature measured by the test target sensor. The detector detects that the difference value is higher than a predetermined value. | 09-25-2014 |
20140314115 | CALIBRATOR FOR CALIBRATING DEVICES WITH A TEMPERATURE FUNCTION - A calibrator for calibrating devices with a temperature function, e.g. thermometers or thermal switches has an input and display unit. The calibrator has a capacitive touchscreen with the input and display unit. | 10-23-2014 |
20140314116 | CALIBRATOR FOR CALIBRATING TEMPERATURE MEASUREMENT DEVICES - A calibrator is provided for calibrating devices with a temperature function, e.g. thermometers or thermal switches. The calibrating device includes a calibrator block with a cavity for the purpose of receiving a receiving body for at least one temperature measurement device to be calibrated. The calibrator block features a material with thermally insulating properties and the receiving body features a material with thermally conductive properties. At least one heating device is embedded in the calibrator block in the area of the cavity. | 10-23-2014 |
20140314117 | Method and Assembly For Determining The Temperature Of A Test Sensor - Methods and systems accurately determine an analyte concentration in a fluid sample. In an example embodiment, a receiving port receives a test sensor. The test sensor includes a fluid-receiving area for receiving a fluid sample. The fluid-receiving area contains a reagent that produces a measurable reaction with an analyte in the fluid sample. The test sensor has a test-sensor temperature and the reagent has a reagent temperature. A measurement system measures the reaction between the reagent and the analyte. A temperature-measuring system measures the test sensor temperature when the test sensor is received into the receiving port. A concentration of the analyte in the fluid sample is determined according to the measurement of the reaction and the measurement of the test sensor temperature. A diagnostic system determines an accuracy of the temperature-measuring system. The calculation of the analyte concentration may be adjusted according to the accuracy of temperature-measuring system. | 10-23-2014 |
20140321497 | OPTICAL NON-DESTRUCTIVE INSPECTION APPARATUS AND OPTICAL NON-DESTRUCTIVE INSPECTION METHOD - There are provided an optical non-destructive inspection apparatus and an optical non-destructive inspection method. The apparatus includes a focusing-collimating unit, a heating laser beam source, a heating laser beam guide unit, an infrared detector, an emitted-infrared guide unit, first and second correcting laser beam source, first and second correcting laser beam guide units, first and second correcting laser detectors, first and second reflected laser beam guide units, and a control unit. The control unit controls the heating laser beam source and the first and second correcting laser beam sources, measures a temperature rise characteristic that is a temperature rise state of a measurement spot based on a heating time, on the basis of a detection signal from the infrared detector and detection signals from the first and second correcting laser detectors, and determines a state of a measurement object based on the measured temperature rise characteristic. | 10-30-2014 |
20140321498 | OPTICAL NON-DESTRUCTIVE INSPECTION APPARATUS AND OPTICAL NON-DESTRUCTIVE INSPECTION METHOD - There are provided an optical non-destructive inspection apparatus and an optical non-destructive inspection method. The apparatus includes a focusing-collimating unit, a heating laser beam source, a heating laser beam guide unit, an infrared detector, an emitted-infrared guide unit, first and second correcting laser beam source, first and second correcting laser beam guide units, first and second correcting laser detectors, first and second reflected laser beam guide units, and a control unit. The control unit controls the heating laser beam source and the first and second correcting laser beam sources, measures a temperature rise characteristic that is a temperature rise state of a measurement spot based on a heating time, on the basis of a detection signal from the infrared detector and detection signals from the first and second correcting laser detectors, and determines a state of a measurement object based on the measured temperature rise characteristic. | 10-30-2014 |
20140321499 | FAULT DETECTION METHOD - With a precondition that a cooling water temperature sensor | 10-30-2014 |
20140328367 | PORTABLE ELECTRONIC DEVICE - In a portable electronic device, a temperature sensor ( | 11-06-2014 |
20140328368 | PORTABLE ELECTRONIC DEVICE - In a portable electronic device, a temperature sensor is provided for sensing an ambient temperature of the portable electronic device. At least one other temperature sensor is provided for sensing a temperature inside the portable electronic device. The portable electronic device further comprises a set of components radiating heat in an active state in response to the consumption of electrical energy. A calibration module is adapted to conduct a calibration measurement during or in connection with an active state of at least a first component out of the set, and is adapted to determine a set of calibration parameters in response to the calibration measurement for adjusting the at least one sensed inside temperature. A compensator is provided for determining a compensated ambient temperature dependent on at least the sensed ambient temperature and the at least one adjusted sensed inside temperature. | 11-06-2014 |
20140355643 | Method and System for Measuring Heat Flux - A heat flux sensor equipped measurement wafer includes a substrate, a cover thermally coupled to a portion of the substrate, a sensor cavity formed between the substrate and the cover, a thermal barrier disposed within at least a portion of the sensor cavity, a bottom temperature sensor thermally coupled to the substrate and insulated from the cover by a portion of the thermal barrier and a top temperature sensor thermally coupled to the cover and insulated from the substrate by an additional portion of the thermal barrier, wherein a temperature difference between the bottom temperature sensor and the top temperature sensor is related to a heat flux passing through the substrate and cover proximate to the sensor cavity. | 12-04-2014 |
20140369376 | BATTERY PACK THERMISTOR TEST METHOD - A battery pack thermistor test method includes charging a battery pack, monitoring a rise in average temperature reported by at least one thermistor on the battery pack over a predetermined time period, preparing at least one thermistor slope by calculating a least square fit of time vs. temperature for the at least one thermistor and comparing the at least one thermistor slope to process-defined thermistor slope limits. | 12-18-2014 |
20140376586 | MULTI-CHIP DEVICE WITH TEMPERATURE CONTROL ELEMENT FOR TEMPERATURE CALIBRATION - A multi-die sensor system comprises a package and one or more transducer dies mounted in the package. Each transducer die includes one or more transducers, a temperature control element, and temperature sensor. The temperature control element changes the temperature of at least a portion of the transducer during operation of the temperature control element. A temperature sensor senses the temperature of at least the portion of the transducer. An output circuitry die mounted in the package receives transducer signals and a sensed temperature signal from the temperature sensor. | 12-25-2014 |
20140376587 | ABNORMALITY DETECTION APPARATUS, HYBRID VEHICLE, ABNORMALITY DETECTION METHOD, AND PROGRAM - Abnormality of a temperature sensor is detected by: calculating the amount of heat generated in a predetermined time period from an object of sensing temperature by the temperature sensor; calculating the amount of temperature change of the object of sensing temperature in the predetermined time period; calculating a coordinate value in a coordinate system represented by having the heat amount information calculated by the heat amount calculation step, on a coordinate axis, and having information on the amount of temperature change of the temperature sensor, calculated by the temperature change calculation step, on another coordinate axis; and detecting abnormality of the temperature sensor in the case where the coordinate value calculated by the coordinate value calculation step is included in a predetermined abnormality detection judgment area in the coordinate system continuously for a certain time. | 12-25-2014 |
20150023385 | MODEL BASED LAMP BACKGROUND FILTRATION OF STRAY RADIATION FOR PYROMETRY - The embodiments described herein generally relate to methods of noise compensation for proper temperature detection in thermal processing chambers and devices for achieving the same. Methods can include determining noise produced by a lamp zone and extrapolating the noise from the detected photocurrent. Devices can include a processing chamber, a substrate support disposed in the processing chamber, the substrate support having a high thermal mass, a pyrometer below the substrate support and oriented to view radiation emitted by the substrate and a controller configured to subtract a time invariant noise component and a time variant noise component from the pyrometer signal. | 01-22-2015 |
20150023386 | SYSTEM AND METHOD FOR AUTOMATICALLY CALIBRATING A TEMPERATURE SENSOR - There is provided a system and method for automatically calibrating a temperature sensor. More specifically, there is provided a system including a temperature sensor that includes a first resistance configured to indicate a temperature of the temperature sensor and a second resistance, in series with the first resistor, wherein the second resistance is adjustable to calibrate the first resistance, and a calibration circuit, coupled to the temperature sensor and configured to automatically calibrate the first resistance. | 01-22-2015 |
20150055674 | LASER ADJUSTMENT DEVICE, LASER ADJUSTMENT SYSTEM AND LASER ADJUSTMENT METHOD FOR INFRARED RADIATION THERMOMETER THEREOF - The invention is directed to a laser adjustment device, a laser adjustment system and a laser adjustment method for an infrared thermometer. The laser adjustment device of the present invention includes a first adjustment seat and a second adjustment seat. The first adjustment seat includes a base, a fixing portion, a first adjustment portion, a second adjustment portion, and a first pivot portion. The second adjustment seat includes a connecting portion, a receiving portion and a second pivot portion. The first adjustment seat is pivoted about the first pivoting portion via the first adjustment portion, a first elastic member, and a first adjustment member. The second adjustment seat is pivoted about the second pivot portion via the second adjustment portion, a second elastic member, and a second adjustment member. | 02-26-2015 |
20150063401 | TEMPERATURE MEASUREMENT APPARATUS USING NEGATIVE TEMPERATURE COEFFICIENT THERMISTOR - Provided is a temperature measurement apparatus using a negative temperature coefficient (NTC) thermistor. A temperature sensor includes the NTC thermistor and a variable resistor part. A resistance value of the variable resistor part varies between a default resistance value for measuring a temperature and a temporary resistance value for determining a disconnection. An abnormal operation determination unit determines whether the NTC thermistor is disconnected, based on an output voltage of the temperature sensor when the variable resistor part has the temporary resistance value. | 03-05-2015 |
20150063402 | METHOD FOR CALIBRATING A MEASURING DEVICE IN A MOBILE TERMINAL - A method for calibrating a measuring device in a mobile terminal includes: during a first calibration period, measuring first and second values at the first and second temperature sensors, respectively; during a second calibration period, measuring energy consumption values of the mobile terminal; generating first maximum, first minimum, and first temperature values from the first measured values; generating second maximum, second minimum, and second temperature values from the second measured values; generating a third maximum value from the measured energy consumption values; and storing the first and second temperature values for the calibration if the difference between the first maximum and minimum values and the difference between the second maximum and minimum values are smaller than a threshold value, and the third maximum value is smaller than a further threshold value. | 03-05-2015 |
20150063403 | TEMPERATURE SENSOR HAVING CALIBRATION FUNCTION ACCORDING TO TEMPERATURE, METHOD OF OPERATING THE SAME, AND DEVICES INCLUDING THE SAME - A temperature sensor having calibration function according to temperature, a method of operating the same, and a device including the same are provided. The temperature sensor includes a reference circuit configured to generate at least one temperature information signal that varies according to a temperature, and generate at least one reference signal that is substantially constant relative to the temperature; and a digital temperature generator configured to receive the at least one temperature information signal and the at least one reference signal generated by the reference circuit, and generate a digital temperature information signal indicative of the temperature based on the at least one temperature information signal and the at least one reference signal, wherein one of the reference circuit and the digital temperature generator is configured to receive a calibration signal and adjust the at least one reference signal based on the calibration signal. | 03-05-2015 |
20150078413 | Method for monitoring a fuel temperature sensor - A method for monitoring a fuel temperature sensor over a repeating cycle includes: estimating a first value of a fuel temperature at the beginning of the cycle with the aid of a value of at least one further temperature from the same cycle and at least one of a second value of the fuel temperature and a further temperature from at least one previous cycle; and checking whether the deviation of a temperature of the fuel temperature sensor lies within a first range around the first value of the fuel temperature. | 03-19-2015 |
20150110147 | Thermometer Management System - A body of a thermometer ( | 04-23-2015 |
20150110148 | Superheat Sensor - A method of sensing superheat includes the steps of: (a) connecting a fluid inlet member of a superheat sensor to one of a plurality of fluid systems; (b) allowing fluid to flow from the fluid system to which the superheat sensor is connected to the superheat sensor; (c) sensing a temperature of the fluid in the fluid system with one of an internal temperature sensor mounted within a housing of the superheat sensor and an external temperature sensor mounted outside of the housing of the superheat sensor; and (d) calculating a superheat of the fluid in the fluid system. | 04-23-2015 |
20150117486 | System and Method for Calibrating Temperatures Sensor for Integrated Circuits - In some embodiments, a method may be provided for calibrating integrated circuit temperature sensors. The method may include sensing a first temperature using a first temperature sensor and a second temperature using a second temperature sensor. The first temperature sensor may be calibrated and is external to a package of the integrated circuit. The second temperature sensor may be included in the integrated circuit. The method may include increasing a temperature of the integrated circuit. The method may include allowing the integrated circuit and the package to thermally equilibrate over a first period of time. The method may include sensing a first slope of a temperature decay by the first temperature sensor. The method may include sensing a second slope of a temperature decay by the second temperature sensor. The method may include calibrating the second temperature sensor responsive to a difference between the first and second temperatures and the first and second slopes. | 04-30-2015 |
20150117487 | METHOD AND DEVICE FOR AUTOMATICALLY DETECTING AN INCORRECT MEASUREMENT OF A TOTAL TEMPERATURE ON AN AIRCRAFT - A method and a device for automatically detecting an incorrect measurement of a total temperature on an aircraft. The detection device comprises several monitoring units configured to monitor the variations of the measured total temperature, provided by a temperature probe, and current values of the Mach number and of the altitude of the aircraft over a predetermined monitoring period of time, and a detection unit configured to detect an incorrect measurement of the total temperature when said monitoring units simultaneously detect particular conditions relative to said variations. | 04-30-2015 |
20150131695 | TEMPERATURE CHARACTERISTIC CORRECTION DEVICE, TEMPERATURE CHARACTERISTIC CORRECTION FORMULA DETERMINATION METHOD, ELECTRONIC APPARATUS, AND CONTROL CIRCUIT - A temperature characteristic correction device corrects a temperature characteristic of an electronic device. The temperature characteristic correction device calculates a peak correction characteristic approximating a peak waveform having a peak value in a second range included in a first range of the temperature characteristic using a first formula, and a correction characteristic approximating a waveform continuing in the first range of the temperature characteristic using a second formula. The temperature characteristic correction device calculates a total correction amount from the peak correction characteristic and the correction characteristic, and then corrects the temperature characteristic using the total correction amount. | 05-14-2015 |
20150292959 | PORTABLE ELECTRONIC DEVICE - In a portable electronic device components ( | 10-15-2015 |
20150300893 | COMPOUND CALIBRATOR FOR THERMAL SENSORS - The present invention, in one aspect, provides a method for calibrating thermal control elements in situ using a single compound calibrator. In some embodiments, the present invention uses a compound calibrator to calibrate thermal control elements on a microfluidic device. In non-limiting embodiment, the compound calibrator can be a droplet, plug, slug, segment or continuous flow of any appropriate solution that, when heated, yields a thermal response profile with a plurality of features (e.g., maxima, minima, inflection points, linear regions, etc.). | 10-22-2015 |
20150316423 | SENSOR ELEMENT, THERMOMETER AS WELL AS METHOD FOR DETERMINING A TEMPERATURE - A sensor element, comprising first and second measuring paths, wherein the first measuring path extends via a first segment of a first material and the second measuring path at least partially extends via this first segment of the first material, wherein the second measuring path extends additionally via a second segment, which is composed of a second material different from the first material. | 11-05-2015 |
20150338290 | SEMICONDUCTOR DEVICE AND TEST METHOD - According to one embodiment, there is provided a semiconductor device including a temperature detection circuit and a test circuit. The temperature detection circuit is configured to detect a temperature by comparing potential of a reference block and reference potential. The test circuit is configured to test, in a test mode, an operation of the temperature detection circuit by serially switching a value of the reference potential to a value selected from a plurality of values, which is different from each other, while a temperature of the semiconductor device is kept at a first temperature. | 11-26-2015 |
20150355034 | APPRATUS FOR SENSING TEMPERATURE USING SENSOR RESISTOR AND METHOD THEREOF - Provided herein is an apparatus for sensing temperature. The apparatus for sensing temperature includes: a sensor unit configured to include at least one sensor resistor and output a sensing signal varying by the sensor resistor in response to temperature when the sensor unit is applied with an operating voltage; a data conversion unit configured to convert a change in temperature sensed based on the sensing signal output from the sensor unit into a time signal and generate temperature information based on the converted time signal; and a control unit configured to control the sensor unit and the data conversion unit and output a temperature value determined depending on the temperature information. | 12-10-2015 |
20150355037 | Temperature Sensing Method Generating a Temperature Dependent and a Temperature Independent Output Frequencies - Embodiments of the invention concern a temperature sensor comprising: a same oscillator ( | 12-10-2015 |
20150369674 | TEMPERATURE SENSOR CALIBRATION - Representative implementations of devices and techniques provide calibration for a chip-based temperature sensor. Two or more measurements are taken using a high resolution temperature sensor digitizer, and used to determine a calibration for the temperature sensor, based on a reference temperature value calculated from the measurements. | 12-24-2015 |
20150369764 | SYSTEM AND METHOD FOR TEMPERATURE SENSING OF THREE-DIMENSIONAL INTEGRATED CIRCUIT - A system and a method for temperature sensing of three-dimensional integrated circuits are revealed. The three-dimensional integrated circuit is formed by stacking of a plurality of chip layers that execute specific functions. The chip layer includes a master layer and at least one slave layer. The master layer is disposed with a master temperature sensor while a first thermal conductive part is arranged at the slave layer where heat is detected. The first thermal conductive part and the master temperature sensor are connected by a thermal conductive structure. Thereby temperature of various points at different chip layers is conducted to the same chip layer by Through Silicon Vias to be measured and calibrated. The design complexity and the implementation cost of the temperature sensing system are significantly reduced. | 12-24-2015 |
20160018272 | OPTICAL FIBER TEMPERATURE DISTRIBUTION MEASURING DEVICE - An optical fiber temperature distribution measuring device includes: an optical fiber as a sensor; a light source for outputting, to the optical fiber, signal light which has been amplified by excitation light; a temperature distribution calculation unit for measuring a temperature distribution along the optical fiber by using backward Raman scattered light from the optical fiber; an ASE light intensity variation measurement unit for measuring an intensity variation of an ASE light generated at the light source; and a temperature distribution correction unit for correcting the temperature distribution based on a measurement result of the ASE light intensity variation measurement unit. | 01-21-2016 |
20160033340 | SENSOR CALIBRATION METHOD AND APPARATUS - Disclosed is a method for calibrating a sensor of a monitoring apparatus for monitoring an analyte concentration in a body fluid sample of a patient in which a temperature-dependent drift model is derived for the sensor. An apparatus for monitoring an analyte concentration in a body fluid sample of a patient including such a sensor and a signal processor programmed to calibrate the sensor in accordance with this method is also disclosed. | 02-04-2016 |
20160047699 | Sensorelement, Thermometer sowie Verfahren zur Bestimmung einer Temperatur - A sensor element comprising a measuring path, which is isolated by a dielectric from a reference element, which is composed of a material, which at a predetermined temperature experiences a phase transition, which changes the electrical conductivity of the material. | 02-18-2016 |
20160054183 | SEMICONDUCTOR DEVICE - There is provided a semiconductor device which can provide desired output characteristics suitable to applications. A semiconductor device | 02-25-2016 |
20160109304 | A Fully Automated Calibration System for Acoustic Pyrometry - A method of calibrating transceiver positions inside an acoustic pyrometry measuring vessel that contains a plurality of transceivers, includes determining ( | 04-21-2016 |
20160109305 | THERMALLY DETERMINING FLOW AND/OR HEAT LOAD DISTRIBUTION IN PARALLEL PATHS - A method including obtaining calibration data for at least one sub-component in a heat transfer assembly, wherein the calibration data comprises at least one indication of coolant flow rate through the sub-component for a given surface temperature delta of the sub-component and a given heat load into said sub-component, determining a measured heat load into the sub-component, determining a measured surface temperature delta of the sub-component, and determining a coolant flow distribution in a first flow path comprising the sub-component from the calibration data according to the measured heat load and the measured surface temperature delta of the sub-component. | 04-21-2016 |
20160161347 | SENSOR ABNORMALITY DETERMINING APPARATUS - A sensor abnormality determining apparatus is applied to an inverter that includes: a power element; a cooling water circulation path for cooling the power element; a temperature sensor that detects a temperature of the power element; and a water temperature sensor that detects a temperature of the cooling water circulating in the cooling water circulation path. The sensor abnormality determining apparatus includes: an abnormality determining section and a determination temperature setting section. The abnormality determining section determines the temperature sensor is abnormal when a temperature difference between the detected power element temperature and the detected water temperature is larger than a prescribed determination temperature difference. The determination temperature setting section sets the prescribed determination temperature difference to a lower value when the detected power element temperature is lower than the detected water temperature as compared to when the detected power element temperature is higher than the detected water temperature. | 06-09-2016 |
20160178457 | OVER-TEMPERATURE DETECTOR WITH TEST MODE | 06-23-2016 |
20160187206 | CALIBRATION APPARATUS FOR WIRELESS TEMPERATURE RECORDER AND CALIBRATION SYSTEM FOR WIRELESS TEMPERATURE RECORDER - A calibration apparatus includes an upper cover body, a lower cover body, a thermometer, a controller, a radio frequency identification reader-writer, a heating unit and a cooling unit. An accommodation space is defined to include an inner side space of the upper cover body and an inner side space of the lower cover body. A wireless temperature recorder is arranged inside the accommodation space. The controller is configured to control the heating unit and the cooling unit, so that a temperature of the accommodation space measured by the thermometer reaches a stable first temperature. The controller is configured to control the radio frequency identification reader-writer to wirelessly command the wireless temperature recorder to measure the temperature of the accommodation space and record the temperature of the accommodation space as a first data. | 06-30-2016 |
20160187207 | REFERENCE VOLTAGE TEMPERATURE COEFFICIENT CALIBRATION CIRCUIT AND METHOD - The present invention relates to a reference voltage temperature coefficient calibration circuit. The circuit comprises: an operational amplifier comprising an input pair transistor, a load pair transistor, and a bias current source, an inverted input terminal of the operational amplifier being connected to an output terminal of the operational amplifier; and an adjustable current module connected in parallel to the load pair transistor, the adjustable current module being configured to generate an adjusting current, the adjusting current being used to adjust an offset current flowing through the input pair transistor, wherein the adjusting current is related to a current of the bias current source and an order of absolute temperature. The present invention is applicable to calibration of first-order to high-order temperature coefficients of a reference voltage in a circuit, and has universality. | 06-30-2016 |
20160252408 | CALIBRATING THERMAL BEHAVIOR OF ELECTRONICS | 09-01-2016 |
20160377491 | ELECTRONIC DEVICE AND METHOD FOR DETERMINING TEMPERATURE IN THE ELECTRONIC DEVICE - An electronic device detachable from and attachable to a user and a method of determining a temperature in the electronic device are provided. The electronic device includes a housing, a battery mounted in the housing, a coupling member connected to a part of the housing and configured to detachably couple the electronic device to a part of the user's body, a conductive member disposed on one surface of the housing or on one surface of the coupling member and exposed externally, in electrical connection to the battery, a temperature sensor electrically connected to the conductive member, and a circuit electrically connected to the battery, the conductive member, and the temperature sensor, wherein the circuit is configured to monitor a value of a current or a voltage received through the conductive member, and to charge the battery using the current or operate the temperature sensor, based on at least a part of the monitored value. | 12-29-2016 |
20180024013 | Method For Calibrating At Least One Processing Element | 01-25-2018 |
20190145837 | METHOD AND ASSEMBLY FOR DETERMINING THE TEMPERATURE OF A TEST SENSOR | 05-16-2019 |
20220136911 | THERMAL SENSOR - A thermal sensor including a thermal sensing array and a calibration circuit is provided. The thermal sensing array includes a plurality of thermal sensing cells. The thermal sensing cells include a first unmasked thermal sensing cell and a first masked thermal sensing cell. The first unmasked thermal sensing cell senses and obtains a first unmasked sensing data. The first masked thermal sensing cell is disposed adjacent to the first unmasked thermal sensing cell, and the first masked thermal sensing cell obtains a first masked sensing data. The calibration circuit is coupled to the first masked thermal sensing cell and the first unmasked thermal sensing cell. The calibration circuit calibrates the first unmasked sensing data obtained by the first unmasked thermal sensing cell according to the first masked sensing data obtained by the first masked thermal sensing cell to which the first unmasked thermal sensing cell is adjacent. | 05-05-2022 |