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描述
Specialized infrared sensor and solution service provider

  80x64 Thermopile Infrared Array

  HTPA80X64dR2L3.9/0.8 HiC

  HTPA80x64dR2L4.8/0.8 HiC

  HTPA80x64dR2L10/0.7F7.7 HiC

  HTPA80x64dR2L10.5/0.95F7.7 HiC

  HTPA80x64dR2L21.5/0.9 HiC[Ge/Si]

  HTPA80x64dR2L33/1.05 HiC

  The HTPA80x64d is a small size, high performance, low cost thermopile infrared array for thermal imaging inside a TO-8 housing.

  Due to the digital SPI interface, only six pins are needed for operation. It has a 16-bit ADC and built-in EEPROM stores all calibration data. The framerate can be set individually and depends on the sensor clock and ADC resolution.

  For high 16-bit resolution, framerates of up to 20 Hz are possible, while lower ADC resolutions allow framerates of up to 30 Hz and more. Different available optical lenses, integrated with the array in TO-8 housing, provide fields of view (FOV) from 12x9 degree up to 120x90 degree.


  80x64 thermopile pixels

  True shutterless operation

  12x9° to 120x90° FOV

  High framerates of 9 Hz to 60 Hz

  16-bit ADC resolution

  High object temperature range

Power supply voltage (DC) 3.3+0.3/-0.0 V

The current consumption is 25 ± 5

Clock frequency (sensor) 5 ± 3 MHz

Ambient temperature range - 20 to 85 ° C

Object temperature range - 20 to>1000 ° C

Frame rate (full frame) 2 to 60 Hz

Frame rate (quarter frame) 8 to 240 Hz

Field of application: temperature measurement

Introduction to temperature sensor: Heiman infrared high-precision temperature sensor can measure the temperature of objects in the field of view through infrared imaging, and the accuracy of temperature measurement can be ± 0.2 ℃ through the algorithm.

image.png


  80x64 Thermopile Infrared Array

  HTPA80X64dR2L3.9/0.8 HiC

  HTPA80x64dR2L4.8/0.8 HiC

  HTPA80x64dR2L10/0.7F7.7 HiC

  HTPA80x64dR2L10.5/0.95F7.7 HiC

  HTPA80x64dR2L21.5/0.9 HiC[Ge/Si]

  HTPA80x64dR2L33/1.05 HiC

  The HTPA80x64d is a small size, high performance, low cost thermopile infrared array for thermal imaging inside a TO-8 housing.

  Due to the digital SPI interface, only six pins are needed for operation. It has a 16-bit ADC and built-in EEPROM stores all calibration data. The framerate can be set individually and depends on the sensor clock and ADC resolution.

  For high 16-bit resolution, framerates of up to 20 Hz are possible, while lower ADC resolutions allow framerates of up to 30 Hz and more. Different available optical lenses, integrated with the array in TO-8 housing, provide fields of view (FOV) from 12x9 degree up to 120x90 degree.


  80x64 thermopile pixels

  True shutterless operation

  12x9° to 120x90° FOV

  High framerates of 9 Hz to 60 Hz

  16-bit ADC resolution

  High object temperature range

Power supply voltage (DC) 3.3+0.3/-0.0 V

The current consumption is 25 ± 5

Clock frequency (sensor) 5 ± 3 MHz

Ambient temperature range - 20 to 85 ° C

Object temperature range - 20 to>1000 ° C

Frame rate (full frame) 2 to 60 Hz

Frame rate (quarter frame) 8 to 240 Hz

Field of application: temperature measurement

Introduction to temperature sensor: Heiman infrared high-precision temperature sensor can measure the temperature of objects in the field of view through infrared imaging, and the accuracy of temperature measurement can be ± 0.2 ℃ through the algorithm.

image.png


HEIMANN HTPA80X64D Thermopile Infrared Array
  • Product Details
  • Attachment Download

  •   80x64 Thermopile Infrared Array

      HTPA80X64dR2L3.9/0.8 HiC

      HTPA80x64dR2L4.8/0.8 HiC

      HTPA80x64dR2L10/0.7F7.7 HiC

      HTPA80x64dR2L10.5/0.95F7.7 HiC

      HTPA80x64dR2L21.5/0.9 HiC[Ge/Si]

      HTPA80x64dR2L33/1.05 HiC

      The HTPA80x64d is a small size, high performance, low cost thermopile infrared array for thermal imaging inside a TO-8 housing.

      Due to the digital SPI interface, only six pins are needed for operation. It has a 16-bit ADC and built-in EEPROM stores all calibration data. The framerate can be set individually and depends on the sensor clock and ADC resolution.

      For high 16-bit resolution, framerates of up to 20 Hz are possible, while lower ADC resolutions allow framerates of up to 30 Hz and more. Different available optical lenses, integrated with the array in TO-8 housing, provide fields of view (FOV) from 12x9 degree up to 120x90 degree.


      80x64 thermopile pixels

      True shutterless operation

      12x9° to 120x90° FOV

      High framerates of 9 Hz to 60 Hz

      16-bit ADC resolution

      High object temperature range

    Power supply voltage (DC) 3.3+0.3/-0.0 V

    The current consumption is 25 ± 5

    Clock frequency (sensor) 5 ± 3 MHz

    Ambient temperature range - 20 to 85 ° C

    Object temperature range - 20 to>1000 ° C

    Frame rate (full frame) 2 to 60 Hz

    Frame rate (quarter frame) 8 to 240 Hz

    Field of application: temperature measurement

    Introduction to temperature sensor: Heiman infrared high-precision temperature sensor can measure the temperature of objects in the field of view through infrared imaging, and the accuracy of temperature measurement can be ± 0.2 ℃ through the algorithm.

    image.png


      80x64 Thermopile Infrared Array

      HTPA80X64dR2L3.9/0.8 HiC

      HTPA80x64dR2L4.8/0.8 HiC

      HTPA80x64dR2L10/0.7F7.7 HiC

      HTPA80x64dR2L10.5/0.95F7.7 HiC

      HTPA80x64dR2L21.5/0.9 HiC[Ge/Si]

      HTPA80x64dR2L33/1.05 HiC

      The HTPA80x64d is a small size, high performance, low cost thermopile infrared array for thermal imaging inside a TO-8 housing.

      Due to the digital SPI interface, only six pins are needed for operation. It has a 16-bit ADC and built-in EEPROM stores all calibration data. The framerate can be set individually and depends on the sensor clock and ADC resolution.

      For high 16-bit resolution, framerates of up to 20 Hz are possible, while lower ADC resolutions allow framerates of up to 30 Hz and more. Different available optical lenses, integrated with the array in TO-8 housing, provide fields of view (FOV) from 12x9 degree up to 120x90 degree.


      80x64 thermopile pixels

      True shutterless operation

      12x9° to 120x90° FOV

      High framerates of 9 Hz to 60 Hz

      16-bit ADC resolution

      High object temperature range

    Power supply voltage (DC) 3.3+0.3/-0.0 V

    The current consumption is 25 ± 5

    Clock frequency (sensor) 5 ± 3 MHz

    Ambient temperature range - 20 to 85 ° C

    Object temperature range - 20 to>1000 ° C

    Frame rate (full frame) 2 to 60 Hz

    Frame rate (quarter frame) 8 to 240 Hz

    Field of application: temperature measurement

    Introduction to temperature sensor: Heiman infrared high-precision temperature sensor can measure the temperature of objects in the field of view through infrared imaging, and the accuracy of temperature measurement can be ± 0.2 ℃ through the algorithm.

    image.png


  • 1、Overview-Datasheet-HTPA_80x64d_Rev16.pdf
    Attachment Download
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longxiang
Shenzhen Longxiang Technology Co., Ltd. is a high-tech electronic company that provides one-stop order distribution services from product research and development programs. The company is mainly engaged in Heimann, Infineon, ST Italy France Semiconductor, Heimann and other brands. The company operates market-oriented companies that mainly serve medical health electronics, new energy, 5G, automotive electronics, big data, industrial applications, artificial intelligence, AI robots, environmental monitoring
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