The Werth Chromatic Focus Point sensor is a highly accurate optical distance sensor that is largely insensitive to surface condition.
The Chromatic Focus Point sensor (CFP) can measure dimensional, shape, and positional deviations at high point density. A large measurement range, up to 6 mm, allows for rapid scanning, as the sensor does not need to track along the surface in order to maintain contact. Alternatively, controlled scanning with automatic tracking of the workpiece surface is also possible for severe deviations from the prescribed path. Flatness, warping, and distortion of surfaces can be measured quickly and highly accurately, with probing errors as low as 0.25 µm in the Z direction. Layer thicknesses can also be determined for transparent materials.
Because of its working principle, the sensor is not significantly affected by the contrast or reflective properties of the workpiece surface. This makes the CFP nearly independent of the surface condition, so it can be used with transparent, diffusive, and highly reflective surfaces, such as those found in toolmaking, electronics manufacturing, and precision optics. In addition to embossing dies, coplanarity of solder points on plug connectors, and highly accurate watch plates, the CFP measures functional optical surfaces such as lenses or mirrors. The linear Chromatic Focus Line sensor (CFL) uses the same measurement principle to capture the entire workpiece surface in 3D.
Various sensor heads are available for different precision, surface angle, and measurement speed requirements. For high precision requirements, it can be combined with the Werth VideoCheck UA multisensor coordinate measuring machine achieving a maximum permissible error of MPEE1 = (0.15 + L / 900) µm.
For more information: www.werthinc.com