The capaNCDT MD6-22 capacitive dual-channel handheld gauge is used for mobile and precise measurement of gaps. This measuring device impresses with high accuracy, intuitive operation and long battery life. Thanks to preset measurement modes, the handheld gauge is immediately ready for use. Compatible with all capacitive sensors from Micro-Epsilon, the MD6-22 is used in different measurement tasks, e.g. for rotor gap monitoring in wind turbines and alignment of rollers in plant and machinery.
Germany
Capacitive sensors are designed for non-contact measurement of displacement, distance and position, as well as for thickness measurement. Due to their high signal stability and resolution, capacitive displacement sensors are applied in laboratories and industrial measurement tasks. In production control, for example, capacitive sensors measure film thickness and application of the adhesive. Installed in machines, they monitor displacement and tool positions.
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thicknessGAUGE C.LL sensor systems use laser triangulation sensors for the thickness measurement. These laser sensors enable high measuring rates at high speeds. The thicknessGAUGE.laser series impresses with a favorable price/performance ratio and is preferably used for thickness measurements of common surfaces such as plastics, wood and metals.
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The RTP 8302.T is based on the laser triangulation sensors and therefore ensures the measurement being independently from material constants. In order to ensure highest precision, the laser beams of the sensors are accurately adjusted during the production process using optoelectronic tools which have been specially developed. The system is ideal for monitoring high-dynamically processes due to its high measuring rate. The C-frame mechanics of the system disposes of an automated in-situ calibration in order to avoid interferences caused by temperature.
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The RTP 8301.CT is based on laser triangulation sensors and therefore ensures the measurement being independently from material constants. The system is designed as O-frame, both sensors detect the thickness according to the differential method. In order to ensure highest precision, the laser beams of the sensors are accurately adjusted during the production process using optoelectronic tools which have been specially developed. The system is ideal for monitoring high-dynamically processes due to its high measuring rate. The O-frame mechanics of the system dispose of a compensation frame which does not vary with temperature and which is used in order to avoid temperature fluctuations of the measuring frame using further sensors. The profilometer corresponds to the TIP 8301.CT regarding its functionality. However, it has a different operatorsĀ“ frontend and evaluation functions.
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