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    • STP11DF45

      STP11DF45

      The STP11DF45 infrared thermopile sensor for non-contact temperature measurement is a thermopile sensor having an output signal voltage directly proportional to the incident infrared (IR) radiation power. Thanks to the anti-electromagnetic interference design, STP11DF45 is robust for all kinds of application environment. An 3.2~4.1 um band pass filter in front of the sensor makes the device sensitive to infrared (IR) radiation which can transmits the glass-ceramic plate for induction cooker The STP11DF45 comprising a new type CMOS compatible thermopile sensor chip features good sensitivity, small temperature coefficient of sensitivity as well as high reproducibility and reliability. A high-precision thermistor reference chip is also integrated for ambient temperature compensation.
    • STP10DF5901K

      STP10DF5901K

      The STP10DF5901K is a digital infrared thermopile sensor that facilitates the non-contact temperature measurement. Housed in a small TO-5 package with digital interface, the sensor integrates thermopile sensor, amplifier, A/D, DSP, MUX and communication protocol. The STP10DF5901K is factory calibrated in wide temperature ranges: -40℃~85℃ for the ambient temperature and -20℃~300℃ for the object temperature. The measured temperature value is the average temperature of all objects in the Field of View of the sensor. The STP10DF5901K offers a standard accuracy of ±2% around room temperatures. The digital platform supports easy integration. Its low power budget makes it ideal for battery powered applications, including household electrical appliances, environmental monitoring, HVAC, smart home/building control and IOT.
    • STP10DF59L6

      STP10DF59L6

      The STP10DF59L6 infrared thermopile sensor for non-contact temperature measurement is a thermopile sensor having an output signal voltage directly proportional to the incident infrared (IR) radiation power. Thanks to the anti-electromagnetic interference design, STP10DF59L6 is robust for all kinds of application environment. The sensor window integrated optical lens improves the sensor‘s DS ratio through optical optimization design . The STP10DF59L6 comprising a new type CMOS compatible thermopile sensor chip features good sensitivity, small temperature coefficient of sensitivity as well as high reproducibility and reliability. A high-precision thermistor reference chip is also integrated for ambient temperature compensation.
    • STP10DF55P2

      STP10DF55P2

      The STP10DF55P2 infrared thermopile sensor for non-contact temperature measurement is a thermopile sensor having an output signal voltage directly proportional to the incident infrared (IR) radiation power. With the anti-electromagnetic interference design, STP10DF55P2 allows reliable measurement even under harsh RF radiation environment. The STP10DF55P2 comprising a new type CMOS compatible thermopile sensor chip features good sensitivity, small temperature coefficient of sensitivity as well as high reproducibility and reliability. A high-precision thermistor reference chip is also integrated for ambient temperature compensation.
    • STP10DF55G1

      STP10DF55G1

      The STP10DF55G1 comprising a new type CMOS compatible thermopile sensor chip features good sensitivity, small temperature coefficient of sensitivity as well as high reproducibility and reliability. An ASIC AFE (Analog Front End) chip is integrated with the thermopile sensor, providing 1000 gain for the small voltage output of thermopile sensor. A input offset voltage is also added in the sensor input. The sensor output voltage can be directly converted by ADC, which elimates the precision Zero-Drift amplifier and DC-DC circuit. A high-precision thermistor reference chip is also integrated for ambient temperature compensation
    • STP10DF55C

      STP10DF55C

      The STP10DF55C infrared thermopile sensor for non-contact temperature measurement is a thermopile sensor having an output signal voltage directly proportional to the incident infrared (IR) radiation power. Thanks to the anti-electromagnetic interference design, STP10DF55C is robust for all kinds of application environment. The STP10DF55C comprising a new type CMOS compatible thermopile sensor chip features good sensitivity, small temperature coefficient of sensitivity as well as high reproducibility and reliability. A high-precision thermistor reference chip is also integrated for ambient temperature compensation.
    • STP10DF55

      STP10DF55

      The STP10DF55 infrared thermopile sensor for non-contact temperature measurement is a thermopile sensor having an output signal voltage directly proportional to the incident infrared (IR) radiation power. Thanks to the anti-electromagnetic interference design, STP10DF55 is robust for all kinds of application environment. The STP10DF55 comprising a new type CMOS compatible thermopile sensor chip features good sensitivity, small temperature coefficient of sensitivity as well as high reproducibility and reliability. A high-precision thermistor reference chip is also integrated for ambient temperature compensation.
    • STP9CF59H

      STP9CF59H

      The STP9CF59H infrared thermopile sensor for non-contact temperature measurement is a thermopile sensor having an output signal voltage directly proportional to the incident infrared (IR) radiation power. Thanks to the
      anti-electromagnetic interference design, STP9CF59H is robust for all kinds of application environment. The STP9CF59H comprising a new type CMOS compatible thermopile sensor chip features good sensitivity, small temperature coefficient of sensitivity as well as high reproducibility and reliability. A high-precision thermistor reference chip is also integrated for ambient temperature compensation.
    • STP9CF59

      STP9CF59

      The STP9CF59 infrared thermopile sensor for non-contact temperature measurement is a thermopile sensor
      having an output signal voltage directly proportional to the incident infrared (IR) radiation power. Thanks to the
      anti-electromagnetic interference design, STP9CF59 is robust for all kinds of application environment.
      The STP9CF59 comprising a new type CMOS compatible thermopile sensor chip features good sensitivity,
      small temperature coefficient of sensitivity as well as high reproducibility and reliability. A high-precision
      thermistor reference chip is also integrated for ambient temperature compensation.
    • STP9CF55H

      STP9CF55H

      The STP9CF55H infrared thermopile sensor for non-contacet temperature measurement is a thermopile sensor
      having an output signal voltage directly proportional to the incident infrared (IR) radiation power. Thanks to the
      anti-electromagnetic interference design, STP9CF55H is robust for all kinds of application environment.
      The STP9CF55H comprising a new type CMOS compatible thermopile sensor chip features good sensitivity,
      small temperature coefficient of sensitivity as well as high reproducibility and reliability. A high-precision
      thermistor reference chip is also integrated for ambient temperature compensation.
      The STP9CF55H high-precision infrared sensor has a temperature measurement accuracy of 0.05℃. (Medical temperature measurement accuracy is usually only need ±0.2℃). It adopts independent patent and development technology, and the sensor's environmental temperature detection accuracy is more than 15 times higher than similar foreign products (accuracy increased from 3% or 5% to 0.2%).
      The sensor has a wide application range, it's widely used in Non-contact temperature measurements, Ear thermometers, Forehead thermometer, Continuous temperature control of manufacturing, Consumer applications and Home appliance temperature measurement.
      Handling Requirements
      Stresses above the absolute maximum ratings may cause damages to the device. Do not expose the detector to aggressive detergents such as Freon, Trichloroethylene, etc. Windows may be cleaned with alcohol and cotton swab. Hand soldering and wave soldering may be applied by a maximum temperature of 260°C for a dwell time less than 10 s. Avoid heat exposure to the top and the window of the detector. Reflow soldering is not recommended.
    • STP9CF55

      STP9CF55

      The STP9CF55 infrared thermopile sensor for non-contacet temperature measurement is a thermopile sensor having an output signal voltage directly proportional to the incident infrared (IR) radiation power. Thanks to the
      anti-electromagnetic interference design, STP9CF55 is robust for all kinds of application environment.
      The STP9CF55 comprising a new type CMOS compatible thermopile sensor chip features good sensitivity, small temperature coefficient of sensitivity as well as high reproducibility and reliability. A high-precision thermistor reference chip is also integrated for ambient temperature compensation.
      Sunshine high-sensitivity thermopile sensors are available in TO-46, TO-5 and compact SMD housings. They vary by sensor-area size and housing type. With the range of specially designed sensors. Sunshine provides solutions for thermometry(Isothermal construction), Non-contact measurement(built-in lens) or Gas Monitoring(two narrowband windows, dual-channel output). Our unique ISOthermal sensor concept significantly distinguishes the Sunshine thermopile family by utilizing patented construction to deliver improved performance and measurement accuracy under thermal shock conditions.
      Stresses above the absolute maximum ratings may cause damages to the device. Do not expose the detector to aggressive detergents such as Freon, Trichloroethylene, etc. Windows may be cleaned with alcohol and cotton swab. Hand soldering and wave soldering may be applied by a maximum temperature of 260°C for a dwell time less than 10 s. Avoid heat exposure to the top and the window of the detector. Reflow soldering is not recommended.
    • YY-Z420C

      YY-Z420C

      YY-M420C is a high performance non-contact infrared temperature measurement module with long distance. The module has the characteristics of fast response and accurate temperature measurement. The standard 2-wire access mode makes it widely used in industrial, power and other applications requiring high temperature monitoring.