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    • SPIR01A

      SPIR01A

      Single-channel or dual-channel digital sensor, DOCI single-line communication, external MCU to process the original signal, more flexible and diverse processing methods. In addition to providing 16-bit infrared digital signals, the sensor can be used for waking-up MCU to reduce the MCU power consumption. The sensor can be customized for more flexible features and better results.
    • YY-MDF

      YY-MDF

      General Description The YY-MDF 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 YY-MDF 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 ...
    • YY-MDB-V2

      YY-MDB-V2

      The YY-MDB-V2 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 YY-MDB-V2 is factory calibrated in wide temperature ranges: -20℃~85℃ for the ambient temperature and -40℃~380℃ With ±2℃(0-100℃) or ±2% accuracy for the object temperature. The measured temperature value is the average temperature of all objects in the Field of View of the sensor.
    • YY-MDB-M

      YY-MDB-M

      The YY-MDB-M 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 YY-MDB-M 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 YY-MDB-M 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.
    • YY-MDB

      YY-MDB

      The YY-MDB 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 YY-MDB 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 YY-MDB 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.
    • YY-MDA

      YY-MDA

      The YY-MDA 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 YY-MDA 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 YY-MDA 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.
    • STP11DF89G1

      STP11DF89G1

      The STP11DF89G1 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 8~14 um band pass filter in front of the sensor makes the device sensitive to high temperature up to 1500°C. An ASIC AFE (Analog Front End) chip is integrated with the thermopile sensor, providing 1000 or 2000 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.
    • STP11DF89

      STP11DF89

      The STP11DF89 infrared thermopile sensor for high temperature measurement is a thermopile sensor having an output signal voltage directly proportional to the incident infrared (IR) radiation power. An 8~14 um band pass filter in front of the sensor makes the device sensitive to high temperature up to 1500°C. The STP11DF89 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.
    • STP11DF85

      STP11DF85

      The STP11DF85 infrared thermopile sensor for high temperature measurement is a thermopile sensor having an output signal voltage directly proportional to the incident infrared (IR) radiation power. An 8~14 um band pass filter in front of the sensor makes the device sensitive to high temperature up to 1500°C. The STP11DF85 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.
    • STP11DF59L5

      STP11DF59L5

      The STP11DF59L5 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, STP11DF59L5 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 STP11DF59L5 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.
    • STP11DF55C

      STP11DF55C

      The STP11DF55C 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, STP11DF55C is robust for all kinds of application environment. The STP11DF55C 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.
    • STP11DF55

      STP11DF55

      The STP11DF55 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, STP11DF55 is robust for all kinds of application environment. The STP11DF55 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.