The Story
This Long-wave IR Thermal Imaging Camera HAT features a long-wave infrared design that has a hybrid technology combining a microbolometer and thermopile pixels.
With an 80 x 62 pixel IR array and a 45° field of view, it detects the IR distribution of objects, calculates their surface temperatures, and generates detailed thermal images. Its shutterless design allows for continuous operation and a thermal imaging video stream, providing uninterrupted monitoring and diagnostics. It is equipped with a Raspberry Pi 40-pin GPIO header, providing compatibility and ease of integration with Raspberry Pi projects.
The camera has impressive sensitivity with a Noise Equivalent Temperature Difference (NETD) of 150mK RMS at a 1Hz refresh rate and can deliver a thermal imaging video stream at up to 25 frames per second for clear results. It is ideal for a wide range of projects, from security surveillance to environmental monitoring.
It comes fully supported with online resources and manuals, including a Python demo for Raspberry Pi and compatibility with Android and Windows host computers, making it a versatile choice for anyone looking to add advanced thermal imaging to their projects.
We also have a USB-C version in the store
Note: Raspberry Pi boards are NOT included
Features
- Adopts the hybrid technology of microbolometer and thermopile, 80 x 62 array pixels
- Continuous operation and thermal imaging video stream due to shutterless design
- Noise Equivalent Temperature Difference (NETD) 150mK RMS@1Hz refresh rate
- Up to 25FPS (Max) thermal imaging video stream output
- Comes with online resources and manuals (Python demo for Raspberry Pi, Android/Windows host computer and user manual, etc.)
Connection Example - Raspberry Pi
Specifications
| Power Supply | 5V |
| Operating Current | 61mA@5V |
| Wavelength Range | 8~14μm |
| Operating Temperature | -20~85℃ |
| Target Temperature | -20~400℃ |
| Refresh Rate | 25 FPS (Max) |
| FOV | Basic version: 45°(H) x 45°(V) |
| Noise Equivalent Temperature Difference |
150mK |
| Measuring Accuracy | ±2℃ (ambient temp. 10~70℃) |
| Dimensions | Thermal Camera HAT: 65.0 x 30.5mm |
Resources
- Product Wiki
- Schematic
Package Contents
- 1x Thermal Camera HAT
- 1x 40-pin Female Header
- 1x FPC 15 PIN cable 0.3mm pitch -100mm
- 1x Screws Pack
Details & Craftsmanship
Every detail has been carefully considered to bring you the perfect product.
Details & Craftsmanship
Every detail has been carefully considered to bring you the perfect product.
Details & Craftsmanship
Every detail has been carefully considered to bring you the perfect product.
Details & Craftsmanship
Every detail has been carefully considered to bring you the perfect product.
Details & Craftsmanship
Every detail has been carefully considered to bring you the perfect product.
Description
This Long-wave IR Thermal Imaging Camera HAT features a long-wave infrared design that has a hybrid technology combining a microbolometer and thermopile pixels.
With an 80 x 62 pixel IR array and a 45° field of view, it detects the IR distribution of objects, calculates their surface temperatures, and generates detailed thermal images. Its shutterless design allows for continuous operation and a thermal imaging video stream, providing uninterrupted monitoring and diagnostics. It is equipped with a Raspberry Pi 40-pin GPIO header, providing compatibility and ease of integration with Raspberry Pi projects.
The camera has impressive sensitivity with a Noise Equivalent Temperature Difference (NETD) of 150mK RMS at a 1Hz refresh rate and can deliver a thermal imaging video stream at up to 25 frames per second for clear results. It is ideal for a wide range of projects, from security surveillance to environmental monitoring.
It comes fully supported with online resources and manuals, including a Python demo for Raspberry Pi and compatibility with Android and Windows host computers, making it a versatile choice for anyone looking to add advanced thermal imaging to their projects.
We also have a USB-C version in the store
Note: Raspberry Pi boards are NOT included
Features
- Adopts the hybrid technology of microbolometer and thermopile, 80 x 62 array pixels
- Continuous operation and thermal imaging video stream due to shutterless design
- Noise Equivalent Temperature Difference (NETD) 150mK RMS@1Hz refresh rate
- Up to 25FPS (Max) thermal imaging video stream output
- Comes with online resources and manuals (Python demo for Raspberry Pi, Android/Windows host computer and user manual, etc.)
Connection Example - Raspberry Pi
Specifications
| Power Supply | 5V |
| Operating Current | 61mA@5V |
| Wavelength Range | 8~14μm |
| Operating Temperature | -20~85℃ |
| Target Temperature | -20~400℃ |
| Refresh Rate | 25 FPS (Max) |
| FOV | Basic version: 45°(H) x 45°(V) |
| Noise Equivalent Temperature Difference |
150mK |
| Measuring Accuracy | ±2℃ (ambient temp. 10~70℃) |
| Dimensions | Thermal Camera HAT: 65.0 x 30.5mm |
Resources
- Product Wiki
- Schematic
Package Contents
- 1x Thermal Camera HAT
- 1x 40-pin Female Header
- 1x FPC 15 PIN cable 0.3mm pitch -100mm
- 1x Screws Pack
