All technical specificationsWith this Basler Blaze "Time-of-Flight" camera, it is possible to generate real-time 3D images. The camera operates on the "Time-of-Flight" (ToF) principle, measuring not only length and width but also depth. Depth calculation is achieved by emitting a brief flash of light and then, per pixel, measuring the time it takes for the emitted light to return to the lens (Time-of-Flight). This Basler Blaze camera uses 4 VCSEL laser diodes, allowing it to generate a 3D image with millimeter precision.
The camera has VGA resolution for high-quality and precise real-time imaging. The housing is robust and IP67 classified, making the camera suitable for demanding (industrial) environments. The camera features a Gigabit Ethernet interface (GigE) for fast image transfer and easy integration into existing systems. By combining multiple exposure settings, it is possible to produce high-contrast images.
For the installation and configuration of the camera, Basler provides a powerful software package called Basler Pylon. This software offers a wide range of tools for capturing, displaying, and processing images and videos. The software is compatible with multiple operating systems (Windows, MacOS, Android, Linux, and Linux ARM) and programming languages (C++, C#, Python, Node.js, and Matlab). Additionally, the camera, via the Pylon camera driver, is compatible with ROS and ROS 2 (Robot Operating System), an open-source software framework designed for creating and managing robot applications. This enables users to develop complex robotics applications with the Basler Blaze camera more quickly and efficiently.
Key features of the Basler Blaze ToF camera:
- Measures length, width, and depth
- Equipped with 4 laser diodes (VCSEL)
- Generates 3D images with millimeter precision
- IP67 housing, suitable for demanding (industrial) environments
- Features Gigabit Ethernet interface (GigE)
- Basler Pylon software package
- Camera driver compatible with ROS and ROS 2 (Robot Operating System)
Product info Basler website