surfaceCONTROL sensors enable high resolution surface scans in order to detect defects or form deviations with high accuracy.
Germany
The surfaceCONTROL 3D 2500 snapshot sensor is used in 3D measurements for geometry, shape and surface inspection on diffuse reflecting surfaces. The sensor can be used in both automated in-line and at-line inspections as well as in the metrology room. The fringe light projection allows direct 3D measurement. The sensor is characterized by its large measuring field as well as a high measuring range depth of up to 300 mm with a repeatability of up to 3.0 µm. The captured images are transferred to the external controller where they are processed into 3D data. Three models cover different measuring fields.
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The high-performance surfaceCONTROL 3D 3200 snapshot sensor is ideally suited for use in industrial applications. It performs automated inline 3D measurements for geometry, shape and surface inspection on diffuse reflecting surfaces. The sensor is characterized by its compact design and high measurement accuracy combined with high data processing speed. With a high Z-axis repeatability of up to 0.6 µm, the sensor is ideal for precise 3D measurement and inspection tasks. Two different measuring ranges cover different measuring fields.
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The high-precision surfaceCONTROL 3D 3500 snapshot sensor is used for automated optical inspection of geometry, shape and surfaces on diffusely reflecting surfaces. The surfaceCONTROL 3D 3500 is characterized by its compact design and high measurement accuracy combined with high speed data processing. With a z-axis repeatability of up to 0.4 µm, the sensor sets new standards in high-precision inline 3D measurement technology. It reliably detects the smallest flatness deviations and height differences. Two models cover different measuring fields.
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surfaceCONTROL sensors are used for 3D measurements and surface inspections. The sensors use the fringe projection principle to detect diffuse reflecting surface and to generate a 3D point cloud. This point cloud is subsequently evaluated in order to recognize geometry, extremely small defects and discontinuities on the surface. Sensors with different measurement areas are available. This enables the inspection of the finest of structures on components as well as form deviations on large-area attachments. Powerful software packages are available for evaluation and parameter setting.
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