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waveshare Long-Wave IR Thermal Imaging Camera Module, 80x62 Pixels, 90°FOV, 40PIN GPIO Header, Wide Angle Version

waveshare Long-Wave IR Thermal Imaging Camera Module User Manual

Model: 80x62 Pixels, 90° FOV, 40PIN GPIO Header, Wide Angle Version

1. Introducció

This manual provides detailed instructions for the waveshare Long-Wave IR Thermal Imaging Camera Module. This module utilizes advanced hybrid technology, combining microbolometer and thermopile pixel technology with an 80x62 array, to provide precise thermal imaging. It is designed for various industrial and intelligent control applications, offering continuous operation and real-time thermal imaging video streams.

2. Contingut del paquet

Si us plau, verifiqueu que tots els articles que s'enumeren a continuació s'inclouen al vostre paquet. Si falta algun article o hi ha algun malmès, poseu-vos en contacte amb el servei d'atenció al client.

  • Thermal Camera HAT (or Thermal USB Camera, depending on version)
  • FPC 15 PIN cable (approx. 100mm, 0.3mm pitch)
  • 40PIN female header (for HAT version)
  • Paquets de cargols
Image showing the waveshare Thermal Camera HAT, FPC cable, 40PIN female header, and screws, representing the package contents.
Figure 2.1: Typical package contents for the waveshare Thermal Camera Module. Contents may vary slightly based on the specific version purchased.

3. Característiques acabadesview

The waveshare Thermal Imaging Camera Module offers a range of features designed for precise and reliable thermal detection:

  • Advanced Hybrid Technology: Combines microbolometer and thermopile pixel technology with an 80x62 array for precise thermal imaging.
  • Shutterless Design: Enables continuous operation and real-time thermal imaging video stream without mechanical shutter interruptions.
  • High Sensitivity and Accuracy: Offers a Noise Equivalent Temperature Difference (NETD) of 150mK RMS at a 1Hz refresh rate.
  • Video Stream Output: Supports up to 25 FPS (frames per second) thermal imaging video stream output.
  • Wide Angle Version: Features a 90° FOV for broader area coverage.
Image displaying key features and specifications of the waveshare Thermal Camera Module, including pixel array, NETD, and refresh rate.
Figure 3.1: Key features and specifications at a glance.

4. Version Options

The thermal camera module is available in several versions, primarily distinguished by their interface and Field of View (FOV):

  • Thermal Camera HAT: Basic version with 45° FOV, onboard 40PIN GPIO header for Raspberry Pi.
  • Thermal-90 Camera HAT: Wide angle version with 90° FOV, onboard 40PIN GPIO header for Raspberry Pi.
  • Thermal USB Camera: Basic version with 45° FOV, onboard Type-C connector for PC/Android.
  • Thermal-90 USB Camera: Wide angle version with 90° FOV, onboard Type-C connector for PC/Android.
Image showing four different versions of the waveshare thermal camera module: Thermal Camera HAT (45 FOV), Thermal-90 Camera HAT (90 FOV), Thermal USB Camera (45 FOV), and Thermal-90 USB Camera (90 FOV).
Figura 4.1: Mésview of available thermal camera module versions.

5. Instruccions de configuració

5.1. Thermal Camera HAT (with 40PIN GPIO Header)

This version is designed for direct connection to Raspberry Pi boards.

  1. Connexió directa: For Raspberry Pi Zero, align the 40PIN female header of the Thermal Camera HAT with the GPIO pins on the Raspberry Pi Zero and gently press to connect.
  2. Extended Connection: For Raspberry Pi 4B or similar models, you can directly connect the HAT to the GPIO pins. Alternatively, for more flexible placement, connect the camera module to the Raspberry Pi 5 using the FPC cable. Ensure the FPC cable is securely inserted into both the camera module and the Raspberry Pi's FPC connector.
Image demonstrating how to connect the Thermal Camera HAT to various Raspberry Pi boards, including direct connection to Raspberry Pi Zero and Raspberry Pi 4B, and extended connection to Raspberry Pi 5 via FPC cable.
Figure 5.1: Connection methods for the Thermal Camera HAT with Raspberry Pi boards.

5.2. Thermal USB Camera (with Type-C Connector)

This version is compatible with Windows PCs and Android phones.

  1. Connexió al PC: Plug the Type-C connector of the Thermal USB Camera into an available USB port on your Windows PC. Drivers may install automatically.
  2. Connecteu-vos al telèfon Android: Use an appropriate adapter (if necessary) to connect the Type-C connector to your Android phone. Ensure your phone supports USB OTG (On-The-Go) functionality.
  3. Instal·lació de programari: Install the necessary host computer software or Android application provided by waveshare for viewing and processing thermal images. Refer to the official waveshare resources for download links and installation guides.
Image illustrating the connection of the Thermal USB Camera to a PC and an Android phone, showing thermal imaging output on both devices.
Figure 5.2: Connecting the Thermal USB Camera to a PC and Android phone.

6. Instruccions de funcionament

Once the module is physically connected and the necessary software is installed, you can begin operating the thermal camera.

  1. Encès: Ensure your host device (Raspberry Pi, PC, or Android phone) is powered on. The thermal camera module draws power from the host device.
  2. Programari de llançament: Open the dedicated thermal imaging software or application on your host device.
  3. View Thermal Feed: The software should display a real-time thermal video stream. Adjust settings such as color palettes, temperature scales, and measurement points as needed within the software.
  4. Captura de dades: Use the software's functions to capture still images or record video streams of the thermal data.

For detailed software-specific operating instructions, refer to the documentation provided with the waveshare software or the online resources.

7. Escenaris d'aplicació

The waveshare Thermal Imaging Camera Module is versatile and can be applied in various fields:

  • Smart Air Conditioner Thermal Imaging: Monitor temperature distribution for energy efficiency.
  • Smart Kitchen Security Monitoring: Detect heat sources for safety and anomaly detection.
  • Detecció d'animals: Identify animals based on their thermal signatures.
  • Incubation Infrared Monitoring: Observe temperature patterns in incubators.
  • Privadesa i seguretat: Use for motion detection or presence sensing without capturing identifiable visual details.
  • Machine Temperature Monitoring: Prevent overheating and diagnose issues in industrial machinery.
Image showing various application scenarios for the thermal camera, including smart air conditioner thermal imaging, smart kitchen security monitoring, animal detection, incubation infrared monitoring, privacy and security, and machine temperature monitoring.
Figura 7.1: Examples of thermal camera application scenarios.

8. Especificacions

ParàmetreValor
Font d'alimentació5V
Corrent de funcionament61 mA @ 5V
Interval de longituds d'ona8-14 µm
Temperatura de funcionament-20~85°C
Temperatura objectiu-20~400°C
Freqüència d'actualització25 FPS (Max)
Camp de View (FOV)Basic version: 45°(H)x45°(V)
Wide angle version: 90°(H)x68°(V)
Diferència de temperatura equivalent al soroll (NETD)150 mK
Precisió de mesura±2°C (ambient temp. 10-70°C)
Dimensions (Thermal Camera HAT / Thermal-90 Camera HAT)65.0×30.5 mm
Dimensions (Thermal USB Camera / Thermal-90 USB Camera)62.0×13.0 mm

8.1. Cotes del contorn

Technical drawing showing the outline dimensions in millimeters for both the Thermal Camera HAT and the Thermal USB Camera versions.
Figure 8.1: Detailed outline dimensions for HAT and USB camera modules.

9. Manteniment

To ensure the longevity and optimal performance of your waveshare Thermal Imaging Camera Module, follow these maintenance guidelines:

  • Neteja: Gently clean the lens and module surface with a soft, dry, lint-free cloth. Avoid using abrasive materials or harsh chemicals.
  • Emmagatzematge: Store the module in a cool, dry environment, away from direct sunlight and extreme temperatures. Use anti-static packaging if available.
  • Manipulació: Handle the module by its edges to avoid touching the sensitive components or the thermal sensor.
  • Actualitzacions de firmware: Periodically check the official waveshare website for any available firmware updates for your module. Follow the provided instructions carefully for any update procedures.

10. Solució De Problemes

If you encounter issues with your thermal camera module, refer to the following common troubleshooting steps:

  • Sense imatge/Pantalla negra:
    • Ensure the module is correctly connected to the host device (GPIO pins or USB port).
    • Verify the host device is powered on and functioning correctly.
    • Check if the thermal imaging software/application is running and configured to detect the module.
    • For USB versions, ensure necessary drivers are installed.
  • Lectures de temperatura incorrectes:
    • Ensure the module's lens is clean and free from obstructions.
    • Verify the emissivity settings in the software are appropriate for the target material.
    • Confirm the ambient temperature is within the module's operating range.
  • Mòdul no detectat:
    • Try connecting to a different USB port or GPIO header.
    • Reinicieu el dispositiu amfitrió.
    • Reinstall the software or drivers.

If the problem persists after attempting these steps, please contact waveshare technical support.

11. Suport i Recursos

waveshare provides comprehensive online resources and support to assist you with your thermal imaging camera module:

  • Documentació en línia: Access detailed user manuals and technical specifications on the official waveshare weblloc.
  • Software Demos: Find Python demos for Raspberry Pi and host computer guides for Android/Windows.
  • Suport tècnic: For further assistance, visit the waveshare support page or contact their technical support team directly.

Please refer to the product page on the waveshare website for the most up-to-date resources and contact information.

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