Previously, the performance capability of the fringe projection was highly dependent on the surface properties of the scanning object. The color and re¬flection properties of the object surface had a significant effect on the quality of the measurement results. This is where the digital adaptive full color projection technique of the StereoScan neo provides the necessary rectification by using color and intensity control to optimally adjust to the given surface properties.
Using the SWYM technology, it is now possible for the first time to visualize the results of a measurement directly on the object. The adaptive full color projection technique enables projection not only of the color patterns which are necessary for the scanning process onto the object, but also of the generated measurement results. This, for instance, allows for the deviations from the CAD to be visualized in color immediately following the measurement on the surface of the scanned object.
This procedure provides the user with totally new possibilities during the work¬flow. In the tooling and molding industry or in the context of model making, deviations of the component surface can be measured and visualized quickly and precisely by using the SWYM technology. Based on the projected deviation images, corrections on the object can be made promptly and on site. In a similar way, deviations in the context of inspection tasks can be made visible immediately and the necessary rectiflication measures can be taken right away.
Highest resolution sensor technology for maximum level of detail
Equipped as 8 or 16 megapixel digital camera versions, the StereoScan neo provides the best arrangement required for the maximum degree of detail for the object acquisition process. In addition, measurement fields of 75 mm up to 1,100 mm can be captured by changing the camera lenses and the base length.
This makes the StereoScan neo the most powerful and versatile white light scanner currently available on the ma