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Eddy-current sensor

From Wikipedia, the free encyclopedia

Eddy current sensors uses the principle of eddy current formation to sense displacement. These sensors measure shaft displacement in rotating machinery and have been around for many years as they offer manufacturers high-linearity, high-speed measurements, and high resolution.[1] Eddy currents are formed when a moving or changing magnetic field intersects a conductor or vice versa.

Diagram of a coil inducing an eddy current in a conductive plate

The relative motion causes a circulating flow of electrons, or currents, within the conductor. These circulating eddies of current create electromagnets with magnet fields that oppose the effect of applied magnetic field. The stronger the applied magnetic field, or greater the electrical conductivity of the conductor, or greater the relative velocity of motion, the greater the currents developed and greater the opposing field. Eddy current probes senses this formation of secondary fields to find out the distance between the probe and target material.

References

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  1. ^ New Equipment Digest (2020-04-28). "Measuring It All -- Position Sensors Get an Upgrade -- Calnetix Technologies has received a patent for its invention of a novel eddy-current position sensor". Retrieved 2020-04-28.