Laser triangulation sensor sets new performance standards
The optoNCDT 1750 is a powerful laser triangulation sensor which is used in high speed, precise measurements in industrial applications. New evaluation algorithms and enhanced components provide highest accuracy and dynamics. The high-performance optical system generates a small light spot onto the target which enables to even detect smallest components reliably.
Due to its compact design with integral controller, the optoNCDT 1750 is extremely versatile in terms of its potential fields of application, while simplifying installation into restricted spaces. Data output is analog or digital via an RS422 interface. Furthermore, the optoNCDT 1750 provides two switching outputs and one input to control different functions.
Intuitive operation provides the web interface with ease of use and the sensor can be easily configured. Integrated help texts accelerate parameter set up. The laser-optical measuring system operates almost regardless of any material and color due to the real-time surface compensation feature. The new web interface simplifies set up and configuration without requiring any additional operating software. User-friendly presets in the web interface, which are also optimized for difficult surfaces such as semi-transparent plastics and ceramics, PCB materials or carbon- and glass-fiber reinforced plastics, enable rapid commissioning and provide very precise results. Peak selection and suppression of interference peaks enable reliable measurements on oily components in the construction of engines and transmissions as well as on coated materials, measurement objects behind glass or on film-sealed components.
For users who are already familiar with the optoNCDT 1700 laser sensor, the changeover is easy. Both are compatible, accessories and appliances can still be used.
The high measuring rate of the optoNCDT 1750 is required for the analysis of mechanical oscillations. For example, when shunting wagons where the impact of the buffers is to be determined or for measurement tasks of rotating parts, e.g. when determining shaft run out. Optimized lenses have increased the linearity. Together with increased repeatability, the user obtains results with higher stability and precision. This extends the fields of application and even more solutions with high requirements of the measurement technology can now be implemented.