- Description
- Package Content
Details
Camera Module
80×62 Pixels IR Array
Small Size | Non-contact | Motion Detection
This is a long-wave IR thermal imaging camera that adopts the hybrid technology of microbolometer and thermopile pixel, features 80x62 array pixels. It will detect the IR distribution of objects in the field of view, turn the data into surface temperature of the objects by calculation, and then generate thermal images, for easy integration into miscellaneous industrial or intelligent control applications.
Four versions are available: options for HAT version with Raspberry Pi 40PIN GPIO header and USB version with Type-C port. Also provides basic version and wide angle version with 45° / 90° FOV.
Key features include:
- Adopts the hybrid technology of microbolometer and thermopile, 80x62 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.)
Main applications:
- High precision long-term non-contact temperature online monitoring
- IR thermal imaging devices, IR thermometers
- Smart home, intelligent building, intelligent lighting
- Industrial temperature control, security & safety, intrude/motion detection
- Small Target Thermal Analysis, Heat Trend Analysis and Solutions
Onboard 40PIN GPIO header
Thermal Camera HAT
Basic version: 45° FOV
Thermal-90 Camera HAT
Wide angle version: 90° FOV
Onboard Type-C connector
Thermal USB Camera
Basic version: 45° FOV
Thermal-90 USB Camera
Wide angle version: 90° FOV
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)×45°(V) |
Wide angle version: 90°(H)×68°(V) | |
Noise Equivalent Temperature Difference |
150mK |
Measuring Acctracy | ±2℃ (ambient temp. 10~70℃) |
Dimensions | Thermal Camera HAT / Thermal-90 Camera HAT: 65.0×30.5mm |
Thermal USB Camera / Thermal-90 USB Camera: 62.0×13.0mm |
With Onboard 40PIN GPIO Header
Compatible with Raspberry Pi boards
Connect to Raspberry Pi 5, extending the camera with the FPC cable
Directly connect to Raspberry Pi ZERO
Directly connect to Raspberry Pi 4B
With Onboard Type-c Connector
Compatible with Windows PC, Android phone, etc
Connect to PC
Connect to Android phone
* for reference only, the Raspberry Pi boards and hosts above are NOT included
Thermal Camera HAT | Thermal USB Camera | Thermal-90 Camera HAT | Thermal-90 USB Camera | Thermal-45 Camera HAT (B) | Thermal-45 USB Camera (B) | Thermal-90 Camera HAT (B) | Thermal-90 USB Camera (B) | |
---|---|---|---|---|---|---|---|---|
Pixel array | 80×62 | |||||||
Absolute accuracy | ±2℃ (ambient temp. 10 ~ 70℃) | ±1.5℃ (ambient temp. 10 ~ 70℃) | ||||||
Target temp. range | -20~400℃ | -40~400℃ | ||||||
Field of view (FOV) | 45° × 45° | 90° × 68° | 45° × 36° | 90° × 67° | ||||
Refresh rate | 25FPS | |||||||
Operating temperature | -20 ~ 85℃ | -40 ~ 85℃ | ||||||
Current | 61mA | 20mA |
Quick Overview
Thermal Camera HAT
- Thermal Camera HAT x1
- 40PIN female header x1
- FPC 15 PIN cable 0.3mm pitch ~100mm x1
- Screws pack x1
Thermal USB Camera
- Thermal USB Camera x1
- Dual Type-C cable ~1m x1
Thermal-90 Camera HAT
- Thermal-90 Camera HAT x1
- 40PIN female header x1
- FPC 15 PIN cable 0.3mm pitch ~100mm x1
- Screws pack x1
Thermal-90 USB Camera
- Thermal-90 USB Camera x1
- Dual Type-C cable ~1m x1