General Data: Revel in the precise engineering of our flush mounting type, specifically designed for meticulous measurements with an impressive distance (Sd) range of 2 to 5 mm. This sensor boasts a reference distance of 3.25 to 3.75 mm, and with a measuring speed of less than 1 mm/ms, it ensures swift accuracy. It dazzles with a repeat accuracy of less than 0.02 mm and a linearity error within ± 100 µm. The temperature coefficient stands at 1 µm/(K mm), ensuring stability across various conditions. Electrical Data: The sensor operates within a voltage supply range of +Vs 15 to 30 VDC, with a max current consumption of just 20 mA when unloaded. It features a robust output circuit voltage output, offering an output signal of 1 to 9 VDC and a load resistance greater than 1000 Ohm, with an impressively low residual output ripple of less than 0.5% Vs. It is equipped with short circuit and reverse polarity protection for uncompromised reliability. Mechanical Data: Constructed with a cylindrical threaded housing made of nickel-plated brass, it measures at a sleek 18 mm in dimension, with a housing length of 31.5 mm, and comes with a convenient 2 m cable connection. Ambient Conditions: It performs optimally in operating temperatures ranging from 0 to +60 °C and proudly upholds a protection class of IP 67, ready to withstand challenging environments.
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This device is none other than the remarkable inductive proximity sensor- a fundamental component in industrial automation, expertly harnessing electromagnetic induction for precise and dependable non-contact detection of metallic targets. At its heart, the sensor contains an oscillator circuit that propels a coil, producing a high-frequency electromagnetic field on its front face. When a metallic entity intrudes this field, it induces eddy currents on the object's surface. These eddy currents generate a counter magnetic field that disrupts the sensor's initial oscillation. The sensor's adept signal processing module identifies this disruption, accurately calculates the distance to the metal object from the variation in field intensity, and translates this data into universal electrical signals like the 4-20 mA current output or 0-10 V voltage output, effortlessly compatible with PLCs, HMIs, or industrial control systems.
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