Entries |
Document | Title | Date |
20080198895 | SUBSTRATE TEMPERATURE MEASUREMENT BY INFRARED TRANSMISSION - A method and apparatus for measuring a substrate temperature during a thermal process are provided. In one embodiment, an apparatus for measuring a substrate temperature during a thermal process includes an evacutable chamber, a substrate heater positioned to heat a substrate disposed in the chamber, and a sensor positioned to receive energy transmitted through the substrate while the substrate is heated by the substrate heater, wherein the sensor is configured to detect a metric indicative of transmittance. In another embodiment, a method for measuring a substrate temperature includes heating a substrate disposed in a chamber, detecting a change in transmittance of the substrate while heating, and determining a temperature of the substrate based on the change in transmittance. | 08-21-2008 |
20080219318 | Mirror with non-invasive temperature sensing device - The embodiments of the invention provide a non-invasive temperature sensing device including a glass mirror and a temperature sensing device coupled to the glass mirror such that when a user is positioned in front of the glass mirror the temperature sensing device can sense the body temperature of the person. The temperature sensing device can be an infrared or laser thermometer. The device can include a base having an upright member coupled thereto, wherein the glass mirror is coupled to the upright member. The glass mirror can further include a temperature display coupled thereto. The device can also contain a processor and memory for processing and storing sensed temperatures. The temperature sensing device can alternatively be attached to either the base or the upright member. More than one temperature sensing device can be connected to the device. | 09-11-2008 |
20080259993 | Moisture Meter with Non-Contact Infrared Thermometer - A moisture meter with non-contact temperature measurement capability having a housing, a moisture-detecting device coupled to or contained at least partially in the housing, and having an output related to measured moisture parameters, a non-contact, optically-based temperature sensing device coupled to the housing, having an output related to sensed temperature, an output display contained in the housing, for displaying measurements to a user, and circuitry contained in the housing for processing both the moisture-detecting device output and the non-contact temperature sensing device output, and transmitting the processed outputs to the output display. The moisture-detecting device can be either one or both of a contact-type moisture-detecting device such as a pad on the rear side of the housing, and a pin-type moisture-detecting device in a hand-held probe, and electrically coupled to the circuitry in the housing through a cord. | 10-23-2008 |
20080267253 | Method to Optimise Temperature Regulation in Technological Processes - Method to optimise temperature regulation in technological processes comprising the following phases: Detection of the temperature on the dies, transmission of the data to a computer equipment ( | 10-30-2008 |
20080267254 | Infrared thermometer - This invention discloses an infrared thermometer for ear or skin temperature. The infrared thermometer comprises a body, an infrared sensing element, and a heat dissipating means. The heat dissipation means is provided behind or below the infrared sensing element for urging the air flowing in and out of the body, so as to contribute better heat dissipation and air circulation around the infrared sensing element. Hence the accuracy and stability of the infrared thermometer are improved. | 10-30-2008 |
20080285618 | Infrared thermometer - An infrared thermometer is disclosed in the present invention, wherein the elastic covering of the probe thereof can be driven to extend outwardly like a cone for measuring ear temperature, or driven to retract inwardly into the housing for measuring forehead temperature, so as to achieve the objective of switching modes between measuring ear/forehead temperature conveniently. In addition, the elastic covering provides enhanced tender feeling to the ear or forehead of the person to be measured in both modes. The upper seat and the lower seat of the housing can be pivotally rotated to different angles to meet demands that may arise during the operation of the infrared thermometer, such as during self-measurement or measurement of other people, so as to facilitate the use of the infrared thermometer. | 11-20-2008 |
20080291967 | Measuring Apparatus - A measuring apparatus is provided. The measuring apparatus includes i) a point temperature sensor that has a tip and measures a temperature of an object, ii) a laser that heats the tip of the point temperature sensor by emitting a laser beam, iii) an optical member that is located between the laser and the point temperature sensor, iv) a measuring device that detects and measures a signal from the point temperature sensor, and v) a signal generator that supplies a reference signal. | 11-27-2008 |
20080298428 | Temperature monitor for bus structure flex connector - A temperature monitor for monitoring plural locations on an electrical bus structure. The temperature monitor includes an infrared sensor for receiving infrared energy from a plurality of discrete predetermined locations on the bus structure, a first member defining a stationary first mask, a second member defining a rotating second mask, and a drive member driving the second member in rotation relative to the first member. Rotation of the second member relative to the first member defines an aperture translated across the first mask member to provide a moving line-of-sight that extends from the sensor and that scans to each of the discrete predetermined locations on the bus structure. | 12-04-2008 |
20080298429 | THERMAL TYMPANIC THERMOMETER - A tympanic thermometer includes a thermally conductive nozzle extending from a distal end of the thermometer. A base of a sensor can is thermally connected to the nozzle to define a path of conductive heat transfer from the nozzle to the base of the can thereby minimizing a thermal gradient between proximal and distal ends of the sensor can when temperature is measured in the ear. An air space around the sensor can inhibits heat transfer except at the base of the sensor can. | 12-04-2008 |
20090067472 | Infrared thermometer and detecting head component thereof - The present invention discloses an infrared thermometer and a detecting head component thereof. The novel detecting head component is located on the top of the infrared thermometer. The detecting head component includes a shell, n infrared detector inside the shell, and a sleeve unit, coupled to the part of the shell which contacts with a measuring object. The infrared thermometer in the present invention can increase the comfortableness of user during using the infrared thermometer. | 03-12-2009 |
20090129435 | Probe structure - The present invention discloses an improved probe structure, which is installed in the body of an infrared clinical thermometer and comprises a plastic hollow casing having an opening; a curved block annularly arranged inside the opening; a hollow sleeve arranged inside the casing and along the perimeter of the opening; a temperature sensor arranged inside sleeve and below the curved block; a support element arranged inside the sleeve and supporting the temperature sensor; and a thermal insulation ring encircling the temperature sensor and pressing against the inner wall of the sleeve. The thermal insulation ring has an outer diameter larger than a width of the temperature sensor, and an air gap is thus formed between the temperature sensor and the inner wall of the sleeve; the top of the thermal insulation ring has an altitude higher than the top of the temperature sensor, and another air gap is thus formed between the temperature sensor and the curved block. Thereby is effectively retarded heat conduction from the external to the temperature sensor. | 05-21-2009 |
20090147821 | Temperature management - A method and device are described for controlling and/or attenuating aiming laser beam brightness in a hand held radiometer. The beam from the laser is directed at a target measurement surface and a transversely movable element member is interposed between the laser and the target to change the beam brightness on the target. In a preferred device a slidable or rotatable element intercepts the beam between the laser and target and a calibrated opening in the element of selected size and/or shape allows part of the beam to pass through the element to provide a safe brightness at the target. | 06-11-2009 |
20090168835 | Portable IR Thermometer Having USB-HID Interface - A portable noncontact thermometer comprising a hand-held housing defining an aperture for ingress of incident thermal energy from a target location. A thermometer module including a noncontact thermal energy detector is also provided. The thermometer module further includes at least one microcontroller operative to interpret electrical signals derived from an output of the noncontact thermal energy detector so as to determine temperature at the target location. A USB-HID communication interface is operative to permit electrical communication between the microcontroller(s) and a remote computer. A display device, fixed with respect to the housing, is also provided. | 07-02-2009 |
20090168836 | MICROMECHANICAL STRUCTURE HAVING A SUBSTRATE AND A THERMOELEMENT, TEMPERATURE SENSOR AND/OR RADIATION SENSOR, AND METHOD FOR MANUFACTURING A MICROMECHANICAL STRUCTURE - A micromechanical structure, a temperature and/or radiation sensor, and a method for manufacturing a micromechanical structure are suggested, the micromechanical structure including a substrate and a thermoelement having a reference contact and a measuring contact, the substrate having a main substrate plane), the thermoelement having a first material between the reference contact and the measuring contact and a second material between the measuring contact and a further reference contact, either the first material being situated over the second material or the second material being situated over the first material between the reference contact and the measuring contact in a direction perpendicular to the main substrate plane. | 07-02-2009 |
20090168837 | METHOD FOR THE TEMPERATURE MEASUREMENT OF SUBSTRATES, AND VACUUM PROCESSING APPARATUS - A method for measuring the temperature of substrates to be coated is disclosed. The substrates have an opening or a cavity, and the substrates are successively moved past a source of coating material. At least one substrate's temperature is measured during coating by at least one temperature sensor and the measured temperature value is transmitted to a measuring device. The temperature sensor is disposed inside the substrate's opening or cavity so as to prevent coating of the temperature sensor. | 07-02-2009 |
20090196324 | Real-Time Line Scan Extraction from Infrared Images Using the Wedge Method in Industrial Environments - A method of measuring the temperature of a sheet material arranged such that it forms at least one side of a cavity, so as to enhance the effective emissivity of the sheet material in the vicinity of the cavity comprises: generating a thermal image of at least part of the inside of the cavity, the thermal image comprising a plurality of pixels each having a pixel value representative of radiation emitted by a respective region of the cavity; identifying a first subset of the pixels whose pixel values meet predetermined criteria; using the identified first subset to determine a line on the thermal image representative of optimal emissivity enhancement in the cavity; and selecting a second subset of the pixels based on the determined line and generating a temperature profile along the determined line derived from the pixel values associated with each of the second subset of pixels. | 08-06-2009 |
20090219970 | Multi-laser system - Hand held infrared measurement devices are disclosed, having at least two separated laser sighting emitters ( | 09-03-2009 |
20090238236 | Thermal Detector - A first object of the invention is a radiation detector comprising an energy absorber ( | 09-24-2009 |
20090238237 | Sighting system and method - This invention relates to optical sighting apparatus systems, and to methods for visualization and for identifying remote target surface areas without physical contact for the purpose of measurement and/or of treatment of the remote surface. An arrangement of projected light beams indicates the position and size of the target surface in relation to a measurement detector or treatment device, so that the device is accurately directed to the target. In a preferred arrangement separate laser beams form a light distribution indication or brightness pattern at the target and the device is sighted toward the pattern on the target surface area. | 09-24-2009 |
20090238238 | Interfacing devices and systems - A system combining the output of a thermal detection and imaging device with a capture and display device, such as a cordless or portable telephone/camera, is used to manage thermal information and displays. | 09-24-2009 |
20090252195 | THERMOMETER PROVIDED WITH PROTECTIVE CASE - A remote or contact measurement thermometer, in particular an infrared thermometer, includes an enclosure presenting a measurement portion by which a patient's body temperature is measured, and a display portion through which the temperature can be read. The enclosure is rigid with a case movable relative thereto about an axis of rotation passing through the enclosure, the case being able to assume two working positions relative to the enclosure ( | 10-08-2009 |
20090262778 | ELECTRONIC DEVICE - An electronic device according to the present invention includes an infrared ray absorbing section | 10-22-2009 |
20090296774 | METHOD AND APPARATUS FOR DETECTING THE SUBSTRATE TEMPERATURE IN A LASER ANNEAL SYSTEM - Embodiments of the invention provide a method and an apparatus for detecting the temperature of a substrate surface. In one embodiment, a method for measuring the temperature is provided which includes exposing the surface of the substrate to a laser beam radiating from a laser source, radiating emitted light from a portion of the surface of the substrate, through the shadow ring, and towards a thermal sensor, and determining the temperature of the portion of the surface of the substrate from the emitted light. The substrate may be disposed on a substrate support within a treatment region and a shadow ring may be disposed between the laser source and the surface of the substrate. The shadow ring may be selectively opaque to the laser beam and transparent to the emitted light. | 12-03-2009 |
20090296775 | EAR THERMOMETER AND METHOD OF MANUFACTURING EAR THERMOMETER - An ear thermometer which includes a temperature detection element and infrared detection element arranged near the opening portion of a probe achieves a reduction in manufacturing cost while reducing the influence of thermal shock. This invention provides an ear thermometer incorporating, in a probe, a temperature detection element to detect an environmental temperature and an infrared detection element to detect infrared radiation emitted from a temperature measurement region in an earhole. The probe includes an end face portion having an opening in its distal end, an inner surface portion of a hollow cylindrical member, and an inwardly protruding engaging portion. A detection element housing is fixed to close the opening of the probe and to form an air layer between the detection element housing and the probe. | 12-03-2009 |
20100014555 | METHOD OF MEASURING IN SITU DIFFERENTIAL EMISSIVITY AND TEMPERATURE - A method for measuring the differential emissivity between two sites on the surface of a body and the temperature of the two sites. The method includes a plurality of measurements of the infrared radiation arising from each of the two sites under a number of different conditions. Some of the measurements include irradiation by external infrared radiation at a known wavelength and intensity. The infrared radiation arising from each of the sites may include emitted radiation, reflected ambient radiation, and reflected external radiation. Additionally, the temperature determined using the method described can be used to calibrate infrared imaging devices used to inspect the entire body. | 01-21-2010 |
20100027580 | Method for standardizing the derivation of the temperature in the mesopause region from hydroxyl (oh*) airglow - In order to derive the temperature in the mesopause region from hydroxyl (OH*) airglow, in which intensities of three lines of OH* emission and a basic position are measured during the night using ground-based IR spectrometers, a noisy OH* spectrum is smoothed by filtering out white noise superimposed on the measured OH* intensities, by means of a spectral analysis method in the form of a harmonic analysis and by means of adaptation using the Voigt function which is carried out in the form of a combination of a Lorentz distribution and a Doppler distribution. A decision is made on the quality of the adaptation of the smoothed spectrum obtained to the original spectrum using statistical characteristic variables and by selecting one of the two methods, harmonic analysis function or Voigt function, and the temperature is thus accurately determined. | 02-04-2010 |
20100124248 | PYROMETRY FOR SUBSTRATE PROCESSING - A substrate processing system includes a processing chamber, a pedestal for supporting a substrate disposed within the processing chamber, and an optical pyrometry assembly coupled to the processing chamber to measure an emitted light originating substantially from a portion of the pedestal or substrate. The optical pyrometry assembly further includes a light receiver, and an optical detector. The optical pyrometry assembly receives a portion of the emitted light, and a temperature of the substrate is determined from an intensity of the portion of the emitted light near at least one wavelength. A method of measuring a temperature of a substrate during processing, includes disposing a light pipe near a portion of the pedestal supporting the substrate or pedestal, shielding the end of the light pipe from stray light so that the end of the light pipe receives light from the portion of the pedestal or substrate, purging the end of the light pipe with a gas to reduce contamination of the end of the light pipe, detecting a portion of the light emitted from the pedestal and received by the light pipe, and determining a temperature of the substrate from the intensity of the portion of the emitted light from the pedestal or the substrate near at least one wavelength. | 05-20-2010 |
20100195697 | Measurement sighting device and method - Method and apparatus are provided for visibly outlining the energy zone to be measured by a radiometer. The method comprises the steps of providing a laser sighting device on the radiometer adapted to emit more than two laser beams against a surface whose temperature is to be measured and positioning said laser beams about the energy zone to outline said energy zone. The apparatus comprises a laser sighting device adapted to emit more than two laser beams against the surface and means to position said laser beams about the energy zone to outline said energy zone. The laser beams may be rotated about the periphery of the energy zone. The laser beams may be rotated about the periphery of the energy zone. In another embodiment, a pair of laser beams are projected on opposite sides of the energy zone. The laser beams may be further pulsed on and off in a synchronized manner so as to cause a series of intermittent lines to outline the energy zone. Such an embodiment improves the efficiency of the laser and results in brighter laser beams being projected. In yet another embodiment, a primary laser beam is passed through or over a beam splitter or a diffraction grating so as to be formed into a plurality of secondary beams which form, where they strike the target, a pattern which defines an energy zone area of the target to be investigated with the radiometer. Two or more embodiments may be used together. A diffraction device such as a grating may be used to form multiple beams. In a further embodiment, additionally laser beams are directed axially so as to illuminate the center or a central area of the energy zone. | 08-05-2010 |
20100265988 | SUBSTRATE COOL DOWN CONTROL - Methods and apparatus for precise substrate cool down control are provided. Apparatus for measuring temperature of substrates may include a cool down plate to support a substrate; a sensor to provide data corresponding to a temperature of the substrate when disposed on the cool down plate; and a computer coupled to the sensor to determine the temperature of the substrate from the sensor data. A method for measuring the temperature of a substrate may include providing a substrate to be cooled to a chamber having a cool down plate disposed therein, a sensor to provide data corresponding to a temperature of the substrate, and a computer coupled to the sensor; sensing a first temperature of the substrate after a predetermined first time interval has elapsed; comparing the first temperature to a predetermined temperature; and determining whether the first temperature is greater than, equal to, or less than the predetermined temperature. | 10-21-2010 |
20100278212 | CIRCUIT ARRANGEMENT AND IMAGING PYROMETER FOR GENERATING LIGHT- AND TEMPERATURE-DEPENDENT SIGNALS - A circuit arrangement for generating light-dependent and temperature-dependent signals has a number of first and second sensor elements, which generate a number of first and second electrical signals. The first and second electrical signals depend on electromagnetic radiation impinging on the circuit arrangement. The first sensor elements are designed to generate the first electrical signals in a manner dependent on electromagnetic radiation from a first wavelength range which comprises a substantial part of the visible light. The second sensor elements are designed to generate the second electrical signals in a manner dependent on electromagnetic radiation from a second wavelength range which predominantly comprises infrared radiation. The first wavelength range overlaps the second wavelength range and it therefore also comprises infrared radiation. | 11-04-2010 |
20100284436 | IR THERMOMETER THERMAL ISOLATION TIP ASSEMBLY - An IR tip assembly includes a shroud having at least one feature that permits releasable attachment of a disposable cover fitted to a shroud. When the disposable cover is fitted to the shroud, at least one air gap is defined between the shroud and the disposable cover. An IR sensor disposed within the IR tip assembly is mechanically and thermally coupled to a heat sink. The at least one defined air gap creates a thermal isolation between the disposable cover and the disposed IR sensor. There can also be airflow through the at least one air gap. Apparatus and methods to create the airflow are described. | 11-11-2010 |
20100322282 | MULTI-SITE INFRARED THERMOMETER - An infrared thermometer includes a probe and an infrared sensor. The probe with an infrared target absorbs thermal radiation to provide a substantially consistent source of infrared radiation and an aperture for preventing contamination of the infrared target while permitting the transmission of thermal radiation to the target. The infrared sensor is configured for sensing infrared radiation from the infrared target. The infrared target is positioned within the probe such that it absorbs thermal radiation that comes from the aperture and thereafter emits thermal radiation to the infrared sensor. | 12-23-2010 |
20100329301 | Remote temperature sensing device - A temperature sensing device for remotely detecting the temperature of a subject having an identifying feature and a target zone in a fixed relationship to the identifying feature comprising: a distance sensor which measures the distance between the subject and the distance sensor; a temperature sensor for measuring a temperature difference in a sensing zone; a digital image capture device for capturing a digital image of the subject; a means of tilting at least the temperature sensor along at least one axis, and preferably tilting and panning along two axes; a controller that actuates the tilting means; and a support for supporting the distance sensor, the temperature sensor and the digital image capture device; wherein the controller tilts the distance sensor using the tilting means to reduce the distance between the target zone and the sensing zone; and a temperature sensor that measures a temperature difference proximate to the target zone, to detect elevated temperature illness in humans or animals. | 12-30-2010 |
20110032969 | Method and apparatus for generating electricity using ambient heat - A thermopile, utilizing the Seebeck effect, is placed into a blackbody cavity or other ambient heat source, where the hot junctions are inside the heat source, and the cold junctions are outside the heat source, and thereby produces a voltage. | 02-10-2011 |
20110051774 | TEMPERATURE PATCH - A patch may be adapted for placement proximate to a surface region of a mammal. The patch may include an infrared target for receiving thermal energy from the surface region and for emitting infrared radiation according to a substantially known emissivity property. When the target is placed proximate to the surface region, the characteristics of infrared radiation emitted by the target substantially correspond to the temperature of the surface region. The patch may have means for selectively maintaining the target in a position proximate to a surface region of a mammal. The patch may include indicia uniquely associated with the patch. | 03-03-2011 |
20110064114 | PYROMETER ADAPTED FOR DETECTING UV-RADIATION AND USE THEREOF - A pyrometer that is adapted for detecting radiation in the range of 250 to 450 nm is disclosed. The pyrometer can be used for determining the temperature of a matter thermally emitting only ultraviolet-radiation. In particular, the pyrometer can include: a detector having an active area adapted for measuring thermal radiation, a longpass filter having a cut-off wavelength in the range of 400 to 450 nm, means adapted for alternately activating and deactivating the longpass filter, means adapted for measuring a first thermal radiation signal when the longpass filter is deactivated and adapted for measuring a second thermal radiation signal when the longpass filter is activated, and means adapted for determining a temperature corresponding to the measured thermal radiation from a difference of the first radiation signal and the second radiation signal. | 03-17-2011 |
20110103426 | STEEL PLATE QUALITY ASSURANCE SYSTEM AND EQUIPMENT THEREOF - The present invention provides a steel plate quality assurance system and facilities thereof, wherein the steel plate quality assurance system measures, with a steel plate manufacturing line including a finishing mill of a steel plate manufacturing line, and accelerated cooling equipment disposed on the downstream side of the finishing mill in the advancing direction of the steel plate manufacturing line, temperature of at least the whole area of the upper surface of a steel plate, or the whole area of the lower surface of a steel plate to perform quality assurance, and includes temperature measurement means; temperature analysis means; and mechanical property determining means. | 05-05-2011 |
20110110394 | Microstructured sensor for the detection of IR radiation - A microstructured sensor for detecting IR radiation includes: one measuring channel having a measuring diaphragm, on which a first sensitive detector surface is implemented for the absorption of a first IR radiation; and one reference channel having a reference diaphragm, on which a second sensitive detector surface is implemented for the absorption of a second IR radiation. A measuring structure, e.g., a thermopile measuring structure as a series circuit made of thermocouple pairs, is implemented between the measuring diaphragm and the reference diaphragm for measuring a temperature differential between the measuring diaphragm and the reference diaphragm. First and second thermal contacts lie alternately on the two diaphragms. | 05-12-2011 |
20110164654 | EAR THERMOMETER - The present invention provides an ear thermometer that irradiates liquid crystal with backlight without increasing a battery capacity, to make a body temperature displayed with the liquid crystal easily visible even in a dark place. An MCU | 07-07-2011 |
20110164655 | Thermal Sensor, Non-Contact Thermometer Device, and Non-Contact Temperature Measurement Method - A thermal sensor that includes a ceramic body formed of NTC thermister ceramic, heat sensing part electrodes, temperature compensation part electrodes, external electrodes, and a cavity. A heat sensing part, which is the surface layer of the ceramic body, is heated by, for example, radiant heat transfer, reducing the resistance value of a thermistor ceramic layer between the heat sensing part electrodes. Since the heat of the heat sensing part of the ceramic body is insulated by the cavity and thus prevented from diffusing, the heat capacity of the heat sensing unit is reduced, obtaining high sensitivity and high responsiveness. | 07-07-2011 |
20110176577 | SUPERPIXEL MULTI-WAVEBAND PHOTODETECTOR ARRAY FOR REMOTE TEMPERATURE MEASUREMENT - A multi-waveband temperature sensor array, in which each superpixel (e.g., 2×2 pixel cell) operates at a distinct thermal infrared (IR) waveband (e.g. four wavebands) is disclosed. Using an example high spatial resolution, four-band thermal IR band photodetector array, accurate temperature measurements on the surface of an object can be made without prior knowledge of the object emissivity. The multiband photodetector may employ intersubband transition in III-V semiconductor-based quantum layered structures where each photodetector stack absorbs photons within the specified wavelength band while allowing the transmission of photons in other spectral bands, thus efficiently permitting multiband detection. This produces multiple, spectrally resolved images of a scene that are recorded simultaneously in a single snapshot of the FPA. From the multispectral images and calibration information about the system, computational algorithms are used to produce the surface temperature map of a target. | 07-21-2011 |
20110182320 | THERMAL DETECTOR, THERMAL DETECTOR DEVICE, ELECTRONIC INSTRUMENT, AND METHOD OF MANUFACTURING THERMAL DETECTOR - The thermal detector includes a substrate, a thermal detector element including a light absorbing film, a support member supporting the thermal detector element and supported on the substrate so that a cavity is present between the member and the substrate, and at least one auxiliary support post of convex shape protruding from either the substrate or the support member towards the other. The height of the at least one auxiliary support post is shorter than the maximum height from the substrate to the support member. | 07-28-2011 |
20110182321 | DETECTION CIRCUIT FOR HEAT SENSOR, HEAT SENSOR DEVICE, AND ELECTRONIC DEVICE - A detection circuit for a heat sensor includes a charge circuit provided between a second power supply node and a detection node of a heat sensing element, and a discharge circuit provided between the detection node and a first power supply node. The discharge circuit has a discharge resistance element and a discharge transistor provided in series between the detection node and the first power supply node. | 07-28-2011 |
20110182322 | THERMAL DETECTOR, THERMAL DETECTING DEVICE, AND ELECTRONIC INSTRUMENT - A thermal detector includes a thermal detecting element and a support member supporting the thermal detecting element and a wiring layer. The support member has an arm member connected to a mounting member with the first arm member having an arm base end section extending outwardly from the mounting member toward a first direction, the arm base section having a first width measured along a direction perpendicular to the first direction, and an arm body section having a proximal end portion extending from the arm base end section generally along an outer contour of the mounting member with the proximal end portion being spaced apart from an edge of the mounting member in the first direction. The proximal end portion of the arm body section has a second width measured along a direction perpendicular to a lengthwise direction of the arm body section that is narrower than the first width. | 07-28-2011 |
20110188536 | DUAL-COLOR PYROMETRIC MEASUREMENT OF X-RAY FOCAL SPOT TEMPERATURE - An x-ray tube disclosed here in includes an emitter arranged to emit electrons on to a focal spot on a rotatable anode. The x-ray tube also includes a hollow tube arranged to receive electromagnetic radiation from the focal spot at one end of the hollow tube and transmit it to another end. The x-ray tube also includes two or more sensors arranged to detect the electromagnetic radiation through the hollow tube. | 08-04-2011 |
20110216805 | DISSOLUTION TESTING WITH INFRARED TEMPERATURE MEASUREMENT - A dissolution test apparatus may include a vessel support member, a sensor support member, infrared temperature sensors, and an electronic controller. The vessel support member may have apertures for receiving vessels. The infrared temperature sensors are mounted at the sensor support member. Each infrared temperature sensor is positioned proximate to a respective vessel mounting site to receive infrared radiation emitted by media contained in a vessel mounted at the vessel mounting site, and is configured to transmit a measurement signal indicative of the temperature of the media. The electronic controller communicates with the infrared temperature sensors and is configured to receive and process the measurement signals transmitted from the infrared temperature sensors. The electronic controller may be configured to control media temperature in the vessels. | 09-08-2011 |
20110228810 | MULTIPLE OBJECT TALKING NON-CONTACT THERMOMETER - A thermometer is disclosed, comprising a handle, a sensor, an interface, a speaker, a memory, and a display. The sensor is configured to detect the surface temperature of an object without contacting the surface. In some embodiments, the interface includes a mode button to select from a plurality of modes of operation including a surface mode, a human body mode, an animal body mode, a high precision mode, and an ambient mode. Additionally, in some embodiments, the thermometer is configured to output audio/visual data. In some embodiments, temperature readings are stored in the memory for later retrieval and display. A method of generating a temperature reading is also disclosed. | 09-22-2011 |
20110235674 | TEMPERATURE SENSING DEVICE - A temperature sensing device is configured for sensing a temperature of electrical elements disposed on a printed circuit board (PCB) and includes a fixing frame, two guiding rails, a sliding rail, a temperature sensor, a driving device, and a processor. The fixing frame is configured for framing the PCB. The guiding rails are parallelly disposed on the fixing frame. The sliding rail is perpendicularly and slidably disposed between the two guiding rails. The temperature sensor is movably disposed on the sliding rail and configured for sensing the temperature of the electrical elements. The driving device is configured for driving the sliding rail and the temperature sensor to slide along the guiding rails and the sliding rail correspondingly. The processor is connected with the temperature sensor and the driving device and configured for storing positions of the electrical elements and controlling the driving device based on the stored positions. | 09-29-2011 |
20110292965 | METHOD AND SYSTEM FOR MEASURING A PARAMETER IN A HIGH TEMPERATURE ENVIRONMENT USING AN OPTICAL SENSOR - A dual parameter sensor for sensing temperature and mechanical or chemical or related information is disclosed. The sensor is formed of an optical waveguide suitable for use in-situ in a high temperature environment having a Bragg grating written into a core region thereof with short-pulsed electromagnetic radiation. By noting the thermal Black Body radiation level above 650° C., wavelength shifts due to temperature can be decoupled from wavelength shifts due to the other parameter being sensed. Advantageously the thermal radiation can be used as an optical source to probe the Bragg grating, considerably simplifying the interrogating apparatus, removing the need for an extrinsic optical source to probe the sensor. | 12-01-2011 |
20110305257 | Temperature Measuring Apparatus - A temperature measuring apparatus comprises a casing, an infrared sensor assembly, a probe, and a trigger device. The infrared sensor assembly is disposed in the casing. The trigger device is connected between the casing and the probe in such manner that when the probe moves toward the casing, the trigger device is activated by the probe to trigger the infrared sensor assembly to proceed sensing. The temperature measuring apparatus could be operated to measure without pressing any measuring button, so that the temperature measuring apparatus could have a stable operation in the measuring process. Hence, the error of the temperature measuring is reduced and the operation is more convenient. | 12-15-2011 |
20120114012 | INFRARED RAY DETECTION DEVICE, HEATING COOKER, AND METHOD OF MEASURING TEMPERATURE OF COOLING CHAMBER OF HEATING COOKER - A heating cooker including an infrared ray detection device is disclosed. The heating cooker includes a body, an inner case disposed within the body, and provided therein with a cooking chamber to cook food, a detection hole formed at one side wall of the inner case, to allow an infrared ray generated in the cooking chamber to exit outwardly from the cooking chamber, a path change unit disposed in the vicinity of the detection hole, to change a path of the infrared ray passing through the detection hole, and an infrared sensor disposed to be spaced apart from the path change unit, to receive the infrared ray, the path of which has been changed. The path change unit is rotatable to enable the infrared sensor to receive infrared rays having different paths while being generated in different regions in the cooking chamber. | 05-10-2012 |
20120128025 | System and method for integrating sensors in thermostats - Provided according to one or more embodiments is a thermostat having a housing, the housing including a forward-facing surface, the thermostat comprising a passive infrared (PIR) motion sensor disposed inside the housing for sensing occupancy in the vicinity of the thermostat. The PIR motion sensor has a radiation receiving surface and is able to detect the lateral movement of an occupant in front of the forward-facing surface of the housing. The thermostat further comprises a grille member having one or more openings and included along the forward-facing surface of the housing, the grille member being placed over the radiation receiving surface of the PIR motion sensor. The grille member is configured and dimensioned to visually conceal and protect the PIR motion sensor disposed inside the housing, the visual concealment promoting a visually pleasing quality of the thermostat, while at the same time permitting the PIR motion sensor to effectively detect the lateral movement of the occupant. In one embodiment, the grille member openings are slit-like openings oriented along a substantially horizontal direction. | 05-24-2012 |
20120163409 | LASER-AIMING DEVICE FOR RADIANT THERMOMETER - The present invention discloses a laser-aiming device for a radiant thermometer, which comprises a laser adjustment seat, a laser device, and a prism having two inclined faces. The laser adjustment seat is arranged on a temperature detection device of the radiant thermometer. The laser device and the prism are arranged on the laser adjustment device. The laser device generates a laser beam. The prism is located at the illuminated side of the laser beam and coaxial with the laser device, refracting the laser beam into two laser beams that generate two laser spots designating the detectable area of the radiant thermometer. | 06-28-2012 |
20120163410 | THERMAL DETECTOR, THERMAL DETECTION DEVICE, ELECTRONIC INSTRUMENT, AND THERMAL DETECTOR MANUFACTURING METHOD - A thermal detector includes a substrate, a support member, a heat-detecting element, a thermal transfer member, a first light-absorbing layer and a second light-absorbing layer. The support member is supported on the substrate so that a cavity is formed between the substrate and the support member. The heat-detecting element is supported on the support member. The thermal transfer member includes a connecting portion connected to the heat-detecting element and a thermal collecting portion formed over the heat-detecting element and having a surface area larger than a surface area of the connecting portion as seen in plan view. The first light-absorbing layer contacts the thermal transfer member and disposed between the thermal transfer member and the support member. The second light-absorbing layer contacts the thermal transfer member and disposed on the thermal transfer member. | 06-28-2012 |
20120170611 | SMART RADIATION THERMOMETRY SYSTEM FOR REAL TIME GAS TURBINE CONTROL AND PROGNOSIS - A smart radiation thermometry system including a turbine component is provided. The thermometry system also includes at least one smart real time processing sub-system electrically coupled to at least one detector array via at least one high-speed multi-channel ADC. The at least one smart real time processing sub-system calculates temperature and emissivity of the turbine component based upon a computed radiance temperature, reflection correction and multi-wavelength algorithm. The smart real time processing sub-system also transmits data indicative of the temperature, emissivity and other plurality of parameters within a pre-determined time period to a communication unit. The smart real time processing sub-system also outputs emergency alarm signals and controls either directly or via a controller one or more actuators coupled to the gas turbine based upon the data to ensure optimum operation of the gas turbine within safe operating limits. | 07-05-2012 |
20120177083 | INFRARED THERMOMETER - One aspect of the present invention is an infrared thermometer with an infrared sensor. The infrared thermometer is adapted for determining a temperature on at least one predetermined spot on or in a human or animal body and further comprises recognition means for recognizing if the sensor is properly positioned on said at least one predetermined spot. Further shown is a method of operating an infrared thermometer. | 07-12-2012 |
20120213247 | TEMPERATURE MEASUREMENT SYSTEM AND TEMPERATURE MEASUREMENT METHOD - A temperature measurement system including a measurement plate placed on a measurement plane specified on at least one of an intake opening and an exhaust opening of a rack storing an information processing apparatus or at a position being away from the measurement plane by a predetermined distance; and an infrared camera configured to capture an image of the measurement plate, where the infrared camera is placed at a position with which the measurement plane is not captured and the measurement plate is captured by the infrared camera. | 08-23-2012 |
20120213248 | System and Method for Warm Body Presence Detection - A system and method for warm body presence detection, the system comprising a detection unit comprising a light focusing unit for absorbing light from an inspected region; and a thermal detection unit for receiving the absorbed light, sensing infrared radiation and generating a signal indicative of the sensed infrared radiation; and a processing unit for analyzing the generated signal and deciding based on the analysis whether a warm body presence has been detected. The method for warm body presence detection comprises receiving and analyzing by a processing unit inputs from a short wavelengths thermal detector and a long wavelengths thermal detector, the inputs comprise indications of the amount of emitted infrared radiation in the respective wavelength ranges inspected by each thermal detector, and deciding that a warm body presence has been detected in case the emitted infrared radiation values detected by both thermal detectors correspond to predefined values. | 08-23-2012 |
20120230364 | SENSOR ARRAY - A sensor array has a plurality of sensor elements, each of which has a rectangular frame shaped frame portion formed by connecting a plurality of frame pieces and a membrane that is constructed within the frame portion and has sensitivity as sensor, and the plurality of sensor elements are disposed in a planar shape in a state that the frame pieces in adjacent sensor elements are shared. The membrane has covexoconcave shape in which rectangular concave portions and rectangular convex portions are disposed in a web shape. | 09-13-2012 |
20120236902 | INFRARED SENSOR - An infrared sensor comprises: an electrical insulating film sheet; first and second temperature sensor devices which are provided on one side of the electrical insulating film sheet, and are located at a distance from each other; a pair of contact electrodes, with which the first and second temperature sensor devices are attached respectively, formed on one side of the electrical insulating film sheet; an infrared absorbing film provided on the other side of the electrical insulating film sheet opposite the first temperature sensor device; and an infrared reflector film provided on the same side as the infrared absorbing film opposite the second temperature sensor device. The first and second temperature sensor devices respectively comprise: a thermistor element; and a pair of electrode layers, in which one of them is in contact with the contact electrode, formed both on the upper and lower surfaces of the thermistor element. | 09-20-2012 |
20120275487 | NON-CONTACT THERMOMETER - The present invention is drawn to a non-contact thermometer that is operable to emit a first light having a first color to create a spot of a first color at a reference target and to detect the temperature of the reference target. The non-contact thermometer is additionally operable to establish a temperature difference threshold. In use, once a temperature difference threshold is selected and once the temperature of the reference target is detected, the non-contact thermometer may detect a temperature of another target. Further, if the detected temperature of the other target is outside of the temperature difference threshold as compared to the temperature of the reference target, the non-contact thermometer is operable to emit a second light having a second color to create a spot of a second color at the other target. | 11-01-2012 |
20120275488 | External Temperature Measurement Device For Wine Bottles - An intelligent temperature measurement device that externally determines the temperature of wine in a bottle without penetrating the bottle. | 11-01-2012 |
20120314729 | MIRROR FOR MEASURING TEMPERATURE AND MIRROR STRUCTURE - Provided is a mirror capable of measuring the temperature of an object in a state that the field of view of a radiation thermometer is accurately directed toward the object, and a mirror structure. An object temperature located in front of a mirror is measured by a radiation thermometer while reflecting a mirror image of the object located in front of the mirror on a mirror surface of the mirror in a state that the mirror image includes a portion corresponding to a field of view of the radiation thermometer. | 12-13-2012 |
20120327970 | Compensation of Stray Light Interference in Substrate Temperature Measurement - This disclosure describes systems, methods, and apparatuses for making a non-contact measurement of a substrate in a plasma processing chamber that accounts for stray blackbody radiation. In particular, a photocurrent is calculated that can be attributed to the stray blackbody radiation based upon a temperature of the stray blackbody radiation, a reflectance of a target substrate, and a temperature of the substrate. Knowing the photocurrent attributable to the stray blackbody radiation, a non-contact temperature measurement can be made, and the photocurrent attributable to the stray blackbody radiation can be subtracted out to arrive at a more accurate non-contact substrate temperature measurement. | 12-27-2012 |
20130083822 | IR SENSOR FOR ELECTRONIC THERMOMETER - An electronic thermometer includes a probe adapted to be heated by a subject for use in measuring a temperature of the subject. At least one temperature sensor detects a temperature of the probe. An IR emitter emits an infrared signal from the probe. And an IR detector detects the infrared signal emitted by the IR emitter. The detection of the IR signal by the IR detector indicates that the probe is received in a probe cover. | 04-04-2013 |
20130083823 | ELECTRONIC THERMOMETER WITH IMAGE SENSOR AND DISPLAY - A thermometer for measuring a temperature of a subject. The thermometer includes a probe for insertion into an orifice of the subject. An electromagnetic radiation sensor at the probe senses electromagnetic radiation within the orifice of the subject. The electromagnetic radiation sensor generates data indicative of both the temperature of the subject and one or more anatomical images of the subject. A controller receives the data from the electromagnetic radiation sensor. The controller generates a temperature image on the display indicative of the computed temperature of the subject and one or more anatomical images of the subject on the display. | 04-04-2013 |
20130114641 | INFRARED AERIAL THERMOGRAPHY FOR USE IN DETERMINING PLANT HEALTH - A method and system for monitoring the health of plants in a field. The method and system acquire a thermal image indicative of thermal energy emitted by the plants and process the thermal image to assess variations in the temperatures among the plants. | 05-09-2013 |
20130142215 | Sensing device having a thermal antenna and a method for sensing electromagnetic radiation - A method and a sensing device are provided. The sensing device may include: a thermal antenna that includes a resistive material and has a cross section that has dimensions that are of an order of a micron or of a sub-micron. The thermal antenna may receive electromagnetic radiation and directly convert it to heat. The sensing device may also include a supporting element, a thermal sensor arranged to generate detection signals responsive to a temperature of a sensed area of the thermal sensor, a holding element that may support and thermally isolate the thermal antenna and the thermal sensor and thermally isolate, and a readout circuit that may process the detection signals to provide information about the electromagnetic radiation that is directly converted to heat by the thermal antenna. The thermal antenna and the thermal sensor are spatially separated from the supporting element. | 06-06-2013 |
20130170517 | BOLOMETER HAVING FREQUENCY DETECTION - A bolometer including: at least one electromechanical microsystem or nanosystem, the microsystem or nanosystem including a support and a mobile mass hung from beams above the support, the mobile mass forming an absorber of optical flux; actuation electrodes configured to set the mobile mass in vibration and arranged laterally relative to the mobile mass; and detection electrodes to detect variation in vibration frequency of the mobile mass arranged laterally relative to the mobile mass. | 07-04-2013 |
20130202009 | METHOD AND APPARATUS FOR DISPLAYING THE TEMPERATURE OF AN OBJECT - A method and apparatus for displaying the temperature of an object using an infrared thermometer capable of displaying a measured temperature by projection onto the object being measured are disclosed. | 08-08-2013 |
20130208760 | Method For Measuring Electrical Conductor Temperature - A method for measuring the temperature of an electrical conductor, the method comprising (a) providing a clamp comprising a flexible, thermally conductive material in thermal contact with the electrical conductor, wherein the clamp has an outer surface of a known emissivity value, or a coating of a known emissivity value is disposed on the outer surface of the clamp and (b) measuring the infrared (IR) temperature of the clamp to determine the temperature of the electrical conductor. | 08-15-2013 |
20130208761 | Instrument with Non-contact Infrared Temperature Measurement and Current Clamp - A multi-meter performs multiple measurement functions and includes a housing with a longitudinal axis and a measurement display. The multi-meter further includes a clamp arm type current measuring instrument. The clamp arms are generally aligned with the longitudinal axis of the multi-meter housing. The multi-meter also includes a non-contact infrared temperature measurement device contained in a module attached to the stationary clamp arm of the current measuring instrument. The module is arranged so that the non-contact infrared temperature measurement instrument receives a cone of infrared energy along the longitudinal axis and the cone of infrared energy is not obstructed by the housing or clamp arms. | 08-15-2013 |
20130215928 | METHOD AND DEVICE FOR MEASURING THE INTERNAL BODY TEMPERATURE OF A PATIENT - A method for determining a body temperature of a patient or subject is disclosed, in which a contactless infrared thermometer is manually positioned such as to point at a target area, and by activating the thermometer such that it measures the internal temperature of a patient and reads, via the thermometer, and for a predetermined time interval, the intensity of an infrared radiation in arrival from the target area. The target area is a body surface of a human or animal patient selected from a body location group comprising the ethmoid sinus, the canthus, the open eyelid or the closed eyelid. | 08-22-2013 |
20130235901 | PORTABLE DEVICE FOR MEASURING TEMPERATURE USING INFRARED ARRAY SENSOR - Disclosed is a portable device for measuring temperature with infrared array sensor. This portable device includes: an infrared array sensor module for taking temperature values in a unit of pixel and including a plurality of infrared sensors arranged in an array of pixels; a controller for calculating a resultant temperature value of a subject with reference to the temperature values taken each by the sensors; a display for expressing the resultant temperature value calculated by the controller; and a view finder with an indicator defining a target point to be measured for temperature and having a profile corresponding to the whole or a local shape of the subject. The view finder is formed of a transparent plate on which the subject's shape is reflected. The transparent plate is formed of: a notch representing the indicator; and a lens at least provided in the indicator. | 09-12-2013 |
20130259086 | TEMPERATURE SENSOR AND AN INFRARED DETECTOR INCLUDING SUCH A SENSOR - A temperature sensor for use in an infrared detector the temperature sensor comprising: a first resistor associated with a first thermal path having a first thermal conductivity between the first resistor and a substrate and a first temperature coefficient of resistance; a second resistor associated with a second thermal path having a second thermal conductivity between the second resistor and the substrate and a second temperature coefficient of resistance, and a measurement circuit responsive to changes in the resistance of the first and second resistors to estimate changes in temperature, and wherein at least one of (a) the first and second thermal conductivities are different or (b) the first and second temperature coefficients of resistance are different. | 10-03-2013 |
20130287060 | Temperature Monitoring Device for Workflow Monitoring System - A temperature monitoring device that can automatically collect temperature data and wirelessly interface with a workflow management system. The device is provided in a portable housing and incorporates one or more temperature sensors, such as a physical probe, infrared sensor, or RFID transceiver, along with an interface for wirelessly communicating with a host personal device that has been programmed with temperature management tasks. The device may be used to automatically collect temperatures and provide wirelessly provide the data to the host for monitoring and tracking as part of a comprehensive workflow management system that includes food safety monitoring and compliance programs. | 10-31-2013 |
20130294480 | METHOD AND SYSTEM OF MEASURING SURFACE TEMPERATURE - The present invention provides a measuring method and a measuring system that are capable of accurately measuring the surface temperature of a surface to be measured, without being influenced by the emissivity distribution of the surface to be measured. A surface to be measured that has an emissivity distribution, a radiometer that measures a radiance distribution of the surface to be measured, and an auxiliary heat source installed in a specular reflection position from the radiometer with respect to the surface to be measured are prepared, radiances of two places having different emissivities of the surface to be measured are measured at two different auxiliary-heat-source temperatures, a reflectance ratio of the two places having the different emissivities is calculated on the basis of two measured radiances of the two places having the different emissivities, and temperature of the surface to be measured is obtained using the reflectance ratio and the measured radiances of the two places having the different emissivities. | 11-07-2013 |
20130301674 | SYSTEM AND METHOD OF REMOTE VOLATILE ORGAINIC COMPOUND MONITORING - A volatile organic compound (VOC) sensor device can comprise a sensor located in proximity to a tank vent of a storage tank, wherein the sensor can be configured to monitor flumes from the tank vent; a controller operatively coupled to the sensor, wherein the controller can be configured to receive a measured input from the sensor, wherein the measured input can be VOC measurement data of the flumes; and a wireless communication device coupled to the controller, wherein the wireless communication device can be configured to communicate with a coordinator. | 11-14-2013 |
20130308675 | OPTIMUM PLANT CANOPY TEMPERATURE - An apparatus and method of determining the optimal plant canopy temperature of a plant by measuring chlorophyll a variable fluorescence is described. Leaf samples taken from the plant are placed on a temperature gradient device, exposed to light for an amount of time, and the variable fluorescence emitted from the leaves is measured along with the temperature. Calculations of Fv/Fo over a period of time are used to determine the optimal plant canopy temperature for a plant or a crop. The apparatus and method can be used to compare specific cultivars, to assess the results of plant breeding programs, and to assist in crop management procedures. | 11-21-2013 |
20130308676 | IR THERMOMETER BAFFLES - The present invention relates to an infrared thermometer ( | 11-21-2013 |
20130315279 | CAST SLAB SURFACE TEMPERATURE MEASURING DEVICE USED IN CONTINUOUS CASTING MACHINE - A temperature measuring device, which is used in a continuous casting machine, measures the surface temperature of a part or all of a cast slab in a width direction of the cast slab, which is drawn from a mold and conveyed by rollers, in a secondary cooling zone of the continuous casting machine. The temperature measuring device includes a support member that is installed on the side of roller support parts by which the rollers are rotatably supported; an arm member of which a proximal portion is rotatably mounted on the support member; and a radiation thermometer which is provided at a distal end portion of the arm member and of which a light receiving opening is disposed at a position corresponding to a height in the range of 1.0 to 4.5 m from the surface of the cast slab. | 11-28-2013 |
20130329764 | RADIATION COMPENSATED THERMOMETER - A radiant compensated thermometer, which uses a pair of parabolic-shaped radiation shields that are spaced-apart from one another. An upper shield is positioned to intercept the sunlight from impacting on a lower shield; both shields have an outer substantially reflective surface and an inner substantially non-reflective surface. A temperature sensor is positioned in a “dead space” near the inner surface of the lower shield, which is cooler than the other areas of the device. | 12-12-2013 |
20130329765 | Infrared Transmissive Protective Cover, Method for Manufacturing the Same and Monitoring Method Using the Same - To provide a practical infrared transmissive protective cover capable of detecting a heating abnormality of an internal heating element and the like by visual observation and by using infrared rays. The infrared transmissive protective cover includes a light transmission section, the light transmission section is made of a resin sheet containing a resin composition, and a total light transmittance of the light transmission section in a visible light region is 70% or more, and an average infrared transmittance in a wavelength range of 8 to 14 μm is 5% or more. | 12-12-2013 |
20130343425 | RADIATION THERMOMETER USING OFF-FOCUS TELECENTRIC OPTICS - A radiation thermometer utilizing an off-focus telecentric lens arrangement in chemical vapor deposition reactors. An object assembly of one or more optical components is positioned at a distance equal to its focal length from an aperture stop. The aperture stop is dimensioned so that the chief rays are substantially parallel with the optical axis of the object assembly, and so that the rays that pass through the aperture stop define a narrow solid angle about the chief rays. The off-focus telecentric arrangement thus configured is focused at infinity, but is utilized to capture radiation from a relatively proximate target (e.g., within a couple meters) that is out of focus. The capture of collimated radiation from the target diminishes the contribution of stray radiation, particularly with targets having a highly specular surface. | 12-26-2013 |
20130343426 | TEMPERATURE CONTROL FOR GaN BASED MATERIALS - A method of in-situ temperature measurement for a wafer treatment reactor such as a chemical vapor deposition reactor desirably includes the steps of heating the reactor until the reactor reaches a wafer treatment temperature and rotating a wafer support element within the reactor about a rotational axis. The method desirably further includes, while the wafer support element is rotating about the rotational axis, obtaining first operating temperature measurements using a first operating pyrometer that receives radiation from a first portion of the wafer support element, and obtaining first wafer temperature measurements using a wafer temperature measurement device that receives radiation from at least one wafer, the wafer temperature measurement device located at a first position. | 12-26-2013 |
20140003461 | CONTACT AND NON-CONTACT THERMOMETER | 01-02-2014 |
20140003462 | THERMOMETER DISPLAY | 01-02-2014 |
20140003463 | NON-CONTACT THERMOMETER | 01-02-2014 |
20140010262 | INFRARED SENSOR - Provided is a lightweight infrared sensor that detects a temperature at a portion spaced apart from a circuit substrate with high accuracy, and is installed on the circuit substrate easily and stably. The infrared sensor includes an insulating film; a first and a second heat sensitive elements are disposed on one surface of the insulating film separately; a first conductive film on the insulating film that is connected to the first heat sensitive element; a second conductive film connected to the second heat sensitive element; an infrared reflection film on the other surface of the insulating film so as to face the second heat sensitive element; a plurality of terminal electrodes formed on one end of the insulating film and fitted into an external connector; an edge reinforcing plate adhered to one end of one surface of the insulating film; and a mounting hole that is formed on the other end. | 01-09-2014 |
20140016667 | METHOD FOR MONITORING WATER TEMPERATURE - Methods are provided for monitoring water temperature using light reflected therefrom, where measurement of reflected light can be obtained from satellite imagery. Such methods include determining a temperature of a body of water by obtaining a measurement of thermal radiation from at least a portion of the body of water. The temperature of at least the portion of the body of water is then determined from the thermal radiation measurement by applying an algorithm relating the measurement to the temperature. The determined temperature can be output in various ways, including as numerical data and as graphical data, such as a temperature map of the body of water. | 01-16-2014 |
20140036953 | TEMPERATURE SENSOR DEVICE AND RADIATION THERMOMETER USING THIS DEVICE, PRODUCTION METHOD OF TEMPERATURE SENSOR DEVICE, MULTI-LAYERED THIN FILM THERMOPILE USING PHOTO-RESIST FILM AND RADIATION THERMOMETER USING THIS THERMOPILE, AND PRODUCTION METHOD OF MULTI-LAYERED THIN FILM THERMOPILE - Disclosed are a temperature sensor device using a thermopile, the total number n of thermocouples thereon can be increased without greatly increasing the internal resistance of the thermopile r, providing high output level and high S/N ratio, a highly sensitive radiation thermometer using the device, and production method of the device using organic material for thin films to form the thermopile. These provide a standardized inexpensive multi-layered thin film thermopile, a radiation thermometer with high sensitivity, and production method of these devices. The temperature sensor device is a device wherein a thermopile which is formed on a thin film thermally isolated from a substrate is place in a temperature sensing part, and the thin film is formed as a multi-layered thin film, a layered thermopile is formed on each layered thin film, the substrate functioning as a heat sink which is one junction of the reference temperature of the thermopile. | 02-06-2014 |
20140036954 | METHOD AND DEVICE FOR DISSOLVED GAS ANALYSIS - A method for dissolved gas analysis is presented. The method includes the steps of irradiating a fluid with electromagnetic radiation; and determining a concentration of a gas as a function of a temperature change of the fluid in response to the irradiation. A device for such an analysis of dissolved gases in a fluid, and a system having such device are also described. | 02-06-2014 |
20140044148 | DEVICE AND METHOD FOR MEASURING TEMPERATURE OF HEAT-TREATED WORKPIECE - A device is provided with a measurement window, which is provided in a heat treat furnace and which permits direct visual observation of a surface to be measured of a heat-treated workpiece, and a temperature sensor, which is provided outside the measurement window and which is capable of carrying out noncontact measurement of the surface temperature of the surface to be measured through the measurement window. The temperature sensor has a measurement wavelength range in which the absorptivity by water is low (e.g., 1.95 μm to 2.5 μm). Further, the measurement window is composed of a window material having a high transmittance in the measurement wavelength range (e.g., germanium). | 02-13-2014 |
20140064327 | THERMOMETER ELECTROMAGNETIC SENSOR WAVEGUIDE - Systems, methods and apparatus are provided through which in some implementations a non-contact thermometer includes a square-angled waveguide. | 03-06-2014 |
20140072012 | INSPECTION SYSTEM WITH TEMPERATURE MEASUREMENT DEVICE - An inspection system, in particular, a sewer inspection system is provided, comprising a temperature measurement device, whereby the temperature measurement device is a pyrometer for contact-free measurement of a surface temperature of an object, in particular, a pipe wall. Advantageously, the pyrometer is configured as an infra-red temperature sensor. | 03-13-2014 |
20140140368 | NON-CONTACXT MEDICAL THERMOMETER WITH DISTANCE SENSING AND COMPENSATION - A non-contact medical thermometer is disclosed that includes an IR sensor assembly having an IR sensor for sensing IR radiation from a target, a distance sensor configured to determine a distance of the thermometer from the target, and a memory component operatively coupled at least to the IR sensor assembly and the distance sensor. The memory component contains predetermined compensation information that relates to predetermined temperatures of targets and to predetermined distances from at least one predetermined target. A microprocessor is operatively coupled to the memory component. The microprocessor is configured to perform temperature calculations based on the IR radiation from the target, the distance of the thermometer from the target, and the predetermined compensation information. | 05-22-2014 |
20140140369 | BATTERY SYTEM TEMPERATURE MONITOR - A battery system including a plurality of battery cells and at least one electronic unit having a circuit board and a temperature measuring device with at least two infrared temperature sensors arranged on and operatively connected to the circuit board and configured to measure a temperature of a predetermined measurement region on a surface of the battery cells. | 05-22-2014 |
20140153610 | MULTI-MODE TEMPERATURE MEASURING DEVICE - A multi-mode temperature measuring device includes a first case, a second case, an IR sensing element and a wave-collection element. The first case has a measuring portion and a bottom portion, which are located at opposite sides of the first case. The measuring portion has a first through hole. The second case is connected with the first case and is rotatable from a first position to a second position. The IR sensing element is disposed at the measuring portion and corresponding to the first through hole. The wave-collection element is disposed in the second case and has a second through hole. When the second case is located at the first position, the second through hole is disposed opposite to the first through hole. When the second case is located at the second position, the second case is fixed at the bottom portion of the first case. | 06-05-2014 |
20140219312 | TEMPERATURE MEASUREMENT DEVICE - In an embodiment, a temperature measurement device is provided with: light collection means; extraction means; optical intensity calculation means; and temperature measurement means. The light collection means collects the emission spectrum of a measurement subject. The extraction means extracts beams having the wavelength of the atomic spectral lines and a beam having a wavelength in a wavelength region where there are no atomic spectral lines, from the emission spectrum collected by the aforementioned light collection means. The optical intensity calculation means calculates the optical intensities of the beams extracted by the aforementioned extraction means. The temperature measurement means calculates the temperature of the aforementioned measurement subject, based on the intensities of the beams calculated by the aforementioned optical intensity calculation means. | 08-07-2014 |
20140254626 | INFRARED TEMPERATURE MEASUREMENT AND STABILIZATION THEREOF - Infrared (IR) temperature measurement and stabilization systems, and methods related thereto are provided. One or more embodiments passively stabilizes temperatures of objects in proximity and within the path between an infrared (IR) sensor and target object. A protective housing may encase an IR sensor, which may include a sensing element or IR element, a circuit or signal processor, and a housing seal plug. The IR element may be thermally bonded with a frame or conductive top hat. | 09-11-2014 |
20140254627 | METHOD AND AN APPARATUS FOR MEASURING TEMPERATURE OF A FLUID STREAM - The present invention concerns a method and an apparatus ( | 09-11-2014 |
20140269826 | IN-SITU TEMPERATURE MEASUREMENT IN A NOISY ENVIRONMENT - Disclosed are method and apparatus for treating a substrate. The apparatus is a dual-function process chamber that may perform both a material process and a thermal process on a substrate. The chamber has an annular radiant source disposed between a processing location and a transportation location of the chamber. Lift pins have length sufficient to maintain the substrate at the processing location while the substrate support is lowered below the radiant source plane to afford radiant heating of the substrate. One or more lift pins has a light pipe disposed therein to collect radiation emitted or transmitted by the substrate when the lift pin contacts the substrate surface. | 09-18-2014 |
20140314120 | Portable Device With Temperature Sensing - A hand-held device having a housing and a processor disposed within the housing, includes a camera and a temperature sensing element having an adjustable field of view. The camera is configured to generate an image of an object and to permit the user to frame the image at a portion of the object to determine the temperature of the framed portion. The temperature sensing element includes a plurality of temperature sensors and the processor is configured to select ones of the plurality of sensors to produce a field of view (FOV) of the temperature sensing element that is less than or equal to the frame in the image. The selected sensors are activated to generate signals corresponding to the temperature of the object in the FOV and the processor is configured to determine a sensed temperature based on the sensor signals. | 10-23-2014 |
20140321501 | HOT BEARING DETECTION SYSTEM AND METHOD - The present disclosure is directed to a system and method for identifying a hot bearing. A processor may be configured for receiving a plurality of infrared (IR) signals emitted by a bearing as the bearing passes through a view window being monitored by one or more IR sensing elements positioned to receive IR radiation emitted from a target area of the bearing. The processor may extract IR data from IR signals emitted from an area within the target area of the bearing defined by a narrow window extending along a longitudinal axis for a length corresponding to substantially an entire length of the bearing. The processor may also establish a characteristic thermal profile from the extracted IR data, the characteristic thermal profile exhibiting identifiable boundaries of an area of interest on the bearing. The processor may compare temperatures of the bearing within the area of interest to a threshold, and produce an alarm signal if temperatures of the bearing within the area of interest exceed the threshold. | 10-30-2014 |
20140369382 | THERMAL TYPE PHOTODETECTOR, THERMAL TYPE PHOTODETECTOR DEVICE, ELECTRONIC INSTRUMENT, AND METHOD OF MANUFACTURING THERMAL TYPE PHOTODETECGTOR - A thermal detector includes a substrate, a thermal detector element, a support member, a support post and an auxiliary support post. The support member supports the thermal detector element. The support post is disposed between the substrate and the support member so that a cavity is disposed between the substrate and the support member. The auxiliary support post is disposed between the substrate and the support member. A gap is disposed between the auxiliary support post and the support member. | 12-18-2014 |
20140376588 | SYSTEM AND METHOD FOR ON-LINE OPTICAL MONITORING AND CONTROL OF A GAS TURBINE ENGINE - A system for on-line optical monitoring of a gas turbine engine includes a viewport into a combustor of the gas turbine engine and an optical filter optically coupled to the viewport. The optical filter is configured to receive broad wavelength band thermal radiation from an interior surface of the combustor while the gas turbine engine is in operation, to substantially block wavelengths of the broad wavelength band thermal radiation emitted and/or absorbed by a flame and/or by exhaust gas within the combustor, and to output narrow wavelength band thermal radiation from the interior surface of the combustor. The system also includes a detector array in optical communication with the optical filter. The detector array is configured to receive the narrow wavelength band thermal radiation and to output signals indicative of a two-dimensional intensity map of the narrow wavelength band thermal radiation. | 12-25-2014 |
20150043613 | INFRARED THERMOMETER - An infrared thermometer includes a proximity sensor, an infrared sensor and a micro controller unit. The micro controller unit determines whether or not the infrared thermometer has contact with an object to be measured, using the proximity sensor. The micro controller unit measures the amount of infrared radiation using the infrared sensor at a time when determining that the infrared thermometer has contact with the object to be measured. The micro controller unit calculates a temperature of the object to be measured, based on the amount of infrared radiation. | 02-12-2015 |
20150055678 | INFORMATION ACQUISITION DEVICE FOR OBJECT TO BE MEASURED - Provided is an information acquisition device for an object to be measured that smoothly acquires various types of information on an object to be measured even in the dark. The information acquisition device for an object to be measured includes: an imaging device which generates a pickup image regarding an image pickup range; a distance calculation unit which calculates a distance to the object to be measured based on the reflected light of modulated light emitted toward the image pickup range; a temperature detection device which detects a temperature of each image pickup section of the image pickup range corresponding to each image section of the pickup image; and an information acquisition unit which acquires information on the object to be measured based on the distance to the object to be measured and the temperature of each image pickup section detected by the temperature detection device. | 02-26-2015 |
20150063412 | SYSTEMS AND METHODS FOR PLANAR TEMPERATURE MEASUREMENT - Various embodiments include systems and apparatuses adapted for detecting two-dimensional turbomachine exhaust temperature. In some embodiments, a system includes a two-dimensional grid sized to mount within an exhaust path of a gas turbomachine, a radiation detection device for detecting radiation emitted from the two-dimensional grid at a plurality of points on the two-dimensional grid, the radiation detection device being mountable proximate the exhaust path and the two-dimensional grid and at least one computing device connected with the radiation detection device, the at least one computing device configured to generate a planar map of the temperature of the exhaust from the gas turbomachine based upon the intensity of the radiation emitted from two-dimensional grid detected at the plurality of points on the two-dimensional grid. | 03-05-2015 |
20150063413 | TEMPERATURE SENSOR, FIXING DEVICE, AND IMAGE FORMING APPARATUS - A temperature sensor includes a front surface; a back surface; a first temperature-sensitive element and a second temperature-sensitive element disposed side by side between the front surface and the back surface; an infrared-ray absorber; and a heat-transfer inhibitor. When the temperature sensor is exposed to infrared rays that have propagated from both of a front-surface side and a back-surface side of the temperature sensor, the infrared absorber heats up by absorbing the infrared rays and transfers heat to the first temperature-sensitive element and the heat-transfer inhibiter inhibits heat transfer to the second temperature-sensitive element caused by the infrared rays. | 03-05-2015 |
20150085897 | INFRARED SENSOR - An infrared sensor includes a thermopile connected in series with an ambient temperature compensation resistance temperature detector (RTD) and four electrical leads. The thermopile produces a voltage as a function of temperature of a point of interest, while the RTD varies in resistance as a function of ambient temperature. Two of the leads deliver current to energize the RTD. The other two leads are used for sensing voltages produced by the thermopile and the RTD. | 03-26-2015 |
20150092814 | METHOD OF EXAMINING A SUBSTRATE AND CORRESPONDING DEVICE - A method of examining a substrate is provided. The method may include: generating a temperature gradient along a surface of the substrate; detecting a heat radiation emitted from the substrate; and determining as to whether the substrate is damaged based on the detected heat radiation. | 04-02-2015 |
20150092815 | Temperature Monitoring Device for Workflow Monitoring System - A temperature monitoring device that can automatically collect temperature data and wirelessly interface with a workflow management system. The device is provided in a portable housing and incorporates one or more temperature sensors, such as a physical probe, infrared sensor, or RFID transceiver, along with an interface for wirelessly communicating with a host personal device that has been programmed with temperature management tasks. The device may be used to automatically collect temperatures and provide wirelessly provide the data to the host for monitoring and tracking as part of a comprehensive workflow management system that includes food safety monitoring and compliance programs. | 04-02-2015 |
20150103862 | ELECTRICAL COMPONENT REMOTE TEMPERATURE MONITORING SYSTEM AND METHOD - The present techniques generally relate to a system and methods for remotely monitoring the interior of a closed electrical enclosure for localized heating (e.g., hot spots). In general, the monitoring system includes features designed to detect one or more hot spots within a dim or dark environment, determine the location of the hot spot within the enclosure, determine a temperature range of the hot spot, and/or notify (e.g., alarm or alert) an operator upon detection of the hot spot. The monitoring system may include one or more temperature sensitive elements configured to determine the heating of potential hot spots within the electrical enclosure. Further, the foregoing features may be designed to allow one or more electrical enclosures to remotely communicate with computer equipment (e.g., workstation or general purpose computers) over a wireless network. | 04-16-2015 |
20150110151 | Method and Apparatus for Measuring Rail Surface Temperature - A method and apparatus suitable for measuring temperature of a surface of a segment of a rail using a sensor underneath a moving or a stationary rail car. The measurement is based on intensities of infrared radiation emitted by the surface. The method uses relationships among emissivity, radiation intensity and surface temperature without assuming an emissivity value for the surface. The apparatus comprises radiation detectors containing sensing elements, a lens systems, and analog to digital conversion board to convert radiation intensities to temperature. | 04-23-2015 |
20150110152 | DEVICE FOR NON-CONTACT TEMPERATURE MEASUREMENT AND TEMPERATURE MEASUREMENT METHOD - In a device ( | 04-23-2015 |
20150117489 | TEMPERATURE PROBE - The present invention includes a temperature probe and use thereof. The temperature probe is configured to obtain a temperature of a blow molding preform, especially a temperature of an inside surface of the blow molding preform. In this manner, effectiveness of heating the preform can be evaluated, the presence of one or more temperature gradients ascertained, and the blow molding process can be optimized for a given preform. | 04-30-2015 |
20150117490 | SYSTEM AND METHOD FOR REMOTE TEMPERATURE MEASUREMENTS IN A HARSH ENVIRONMENT - A temperature sensing device includes a probe unit on a first end and a sensor unit on a second end opposite the first end. The first end is introduced into an environment to be measured, such as an exhaust gas line from a combustion engine, and the second end is positioned in a region outside of the environment such that the sensor unit is at least partially insulated from a temperature of the environment. The probe unit, exposed to the temperature of the environment, achieves a temperature that corresponds to the temperature of the environment. The sensor unit is operable to sense the temperature of the probe unit and generate a corresponding electrical signal usable to determine a sensed temperature of the environment. The temperature of the environment can be determined on a cycle-by-cycle basis, and is usable for implementing advanced combustion strategies such as HCCI and SACI. | 04-30-2015 |
20150124852 | Temperature Monitoring Device For Workflow Monitoring System - A host device and temperature monitoring device (TMD) integrated assembly that can automatically collect temperature data and interface with a workflow management system. The TMD is provided in a portable housing and incorporates one or more temperature sensors, such as a physical probe, infrared sensor, or RFID transceiver, along with an interface for communicating via a wired connection with a host device that has been programmed with temperature management tasks. The TMD may be used to automatically collect temperatures and provide the data to the host for monitoring and tracking as part of a comprehensive workflow management system that includes food safety monitoring and compliance programs. | 05-07-2015 |
20150139271 | INFRARED SENSOR ASSEMBLY FOR MEASURING TEMPERATURE INSIDE VEHICLE - The present invention relates to an infrared sensor assembly for measuring temperature in a vehicle, including: a support bracket | 05-21-2015 |
20150139272 | SYSTEM AND METHOD FOR DISTRIBUTED THERMAL MONITORING - Implementations of the present disclosure involve a thermal monitoring system that includes multiple thermal sensor nodes and a control node. The thermal sensor nodes include an infrared sensor, an ambient temperature sensor, at least one LED, and a controller with a memory for storing temperature measurements and a sending and receiving information to and from the control node. The control node for receives, stores, and outputs temperature measurements from at least one thermal sensor node. | 05-21-2015 |
20150316417 | METHOD AND DEVICE FOR CONTACTLESSLY DETERMINING THE TEMPERATURE OF A MOVING OBJECT HAVING AN UNKNOWN DEGREE OF EMISSION - A method for contactlessly determining the temperature of a moving object having an unknown degree of emission, especially a metal wire conveyed along its longitudinal axis, is described: The object is guided through at least one radiation source emitting thermal radiation, wherein the object is mostly or completely surrounded by the at least one radiation source. With at least one radiation detector, a spatially-resolved thermal radiation measurement is performed in a region through which the object passes when it is guided through the radiation source. The temperature of the moving object is determined on the basis of the spatially-resolved thermal radiation measurement. A corresponding device is also described. | 11-05-2015 |
20150369596 | FLASH THERMOGRAPHY DOUBLE WALL THICKNESS MEASUREMENT - A method of determining the thickness of an internal wall in a gas turbine engine component includes the steps of utilizing flash thermography to measure a complete thickness of a component between an outer wall and at least one enlarged cooling channel at a location where an outer cooling channel is positioned between the outer wall and the at least one enlarged cooling channel and where at least one member spans the cooling channel, such that the thickness is through the member which spans the outer cooling channel. An outer thickness of the component is measured from the outer wall to an outer wall of the outer cooling channel. A thickness is determined from an inner wall of the outer cooling channel to the at least one enlarged cooling channel by subtracting the measured outer thickness from the complete thickness, and also subtracting a known thickness of the outer cooling channel. | 12-24-2015 |
20160018269 | Nanometer Scale Quantum Thermometer - An approach to nanoscale thermometry that utilizes coherent manipulation of the electronic spin associated with nitrogen-vacancy (NV) color centers in diamond is disclosed. The methods and apparatus allow for detection of temperature variations down to milli-Kelvin resolution, at nanometer length scales. This biologically compatible approach to thermometry offers superior temperature sensitivity and reproducibility with a reduced measurement time. The disclosed apparatus can be used to study heat-generating intracellular processes. | 01-21-2016 |
20160041037 | TEMPERATURE CONTROL FOR GaN BASED MATERIALS - A method of in-situ temperature measurement for a wafer treatment reactor such as a chemical vapor deposition reactor desirably includes the steps of heating the reactor until the reactor reaches a wafer treatment temperature and rotating a wafer support element within the reactor about a rotational axis. The method desirably further includes, while the wafer support element is rotating about the rotational axis, obtaining first operating temperature measurements using a first operating pyrometer that receives radiation from a first portion of the wafer support element, and obtaining first wafer temperature measurements using a wafer temperature measurement device that receives radiation from at least one wafer, the wafer temperature measurement device located at a first position. | 02-11-2016 |
20160116348 | MOBILE DEVICE HAVING TEMPERATURE SENSOR AND METHOD OF OPERATING SAME - A mobile device and a method thereof are provided. The mobile device includes a display configured to display an image; a metal bezel surrounding an outer perimeter of the display; a temperature sensor configured to measure a temperature of an object via the metal bezel; and a controller configured to control the display to output the temperature measured using the temperature sensor. | 04-28-2016 |
20160123816 | THERMOPILE TEMPERATURE SENSOR WITH A REFERENCE SENSOR THEREIN - A sensor package having a thermopile sensor and a reference thermopile sensor disposed therein. In one or more implementations, the sensor package includes a substrate, a thermopile sensor disposed over the substrate, a reference thermopile sensor disposed over the substrate, and a lid assembly disposed over the thermopile sensor and the reference thermopile sensor. The lid assembly includes a transparent structure that passes electromagnetic radiation occurring in a limited spectrum of wavelengths and an electromagnetic blocker disposed over the lid assembly. The electromagnetic blocker defines an aperture over the thermopile sensor such that at least a portion of the electromagnetic blocker is positioned over the reference thermopile sensor. The electromagnetic blocker is configured to at least substantially block the electromagnetic radiation occurring in a limited spectrum of wavelengths from reaching the reference thermopile sensor. | 05-05-2016 |
20160131531 | THERMAL TEST BENCH FOR THE RUB STRIP OF A PANTOGRAPH AND PROCESS FOR CORRESPONDING THERMAL TEST - The invention relates to a heat-testing rig for a pantograph wearing strip ( | 05-12-2016 |
20160131532 | MEASUREMENT OBJECT, METHOD FOR THE PRODUCTION THEREOF AND DEVICE FOR THE THERMAL TREATMENT OF SUBSTRATES - A measuring object for use in a heating apparatus for the thermal treatment of substrates is described, wherein the measuring object is the substrate to be treated or an object which in use has a substantially known temperature relation to the substrate to be treated, wherein the measuring object comprises a surface having at least one surface area, which acts as a measuring surface for an optical temperature measurement. A predetermined structure in the form of a plurality of recessions is formed in the surface area, in order to influence the emissivity of the surface area. | 05-12-2016 |
20160131633 | DEVICE AND METHOD FOR DETERMINING THE TEMPERATURE OF A ROAD BUILDING MATERIAL APPLIED BY A CONSTRUCTION MACHINE, AND CONSTRUCTION MACHINE COMPRISING SUCH A DEVICE - A device for determining the temperature of a road building material applied by a construction machine in a mounting width is arranged at the construction machine in a range within the mounting width and has an infrared temperature measuring head, a motor and a controller, the infrared temperature measuring head being arranged to be twistable by the motor transverse to the direction of travel of the construction machine and being effective to record temperature measuring values of the surface of road building material during a rotational movement at at least two measuring points spaced apart from one another. The controller is effective to control the motor based on the fitting position of the device at the construction machine such that the distance between the measuring points on the surface to be measured remains equal. | 05-12-2016 |
20160153842 | METHODS FOR MONITORING STRAIN AND TEMPERATURE IN A HOT GAS PATH COMPONENT | 06-02-2016 |
20160169745 | INFRARED TEMPERATURE SENSOR AND DEVICE USING INFRARED TEMPERATURE SENSOR | 06-16-2016 |
20160202127 | ELECTRONIC THERMOMETER | 07-14-2016 |
20220136902 | SHEET FOR TEMPERATURE MEASUREMENT, AND TEMPERATURE MEASUREMENT SYSTEM - A sheet for temperature measurement of the present disclosure is attached to an object when a surface temperature of the object is measured by a thermal camera, the sheet including a temperature measured section that has a first emissivity, and a marker that is disposed in the temperature measured section, has a second emissivity smaller than the first emissivity, and measures a distance between the thermal camera and the object. | 05-05-2022 |
20220136904 | Digital dynamic infrared thermal imaging device - The disclosure provides a digital dynamic infrared thermal imaging device, which includes a control module, a power supply module, an interface module, a buffer module, an infrared module, a display module and a variable potentiometer; the control module is respectively connected with the interface module, the buffer module and the infrared module, The display module and the variable potentiometer are electrically connected; the power module is respectively electrically connected with the control module, the interface module, the buffer module, the infrared module, the display module and the variable potentiometer. The utility model can dynamically adjust the temperature monitoring range, perform multi-dimensional temperature thermal imaging monitoring of objects, and expand the temperature monitoring range of low-cost and low-resolution infrared thermal imaging sensor. | 05-05-2022 |