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Fischer eddy current thickness gauge probe from Germany

NegotiableUpdate on 05/12
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Overview

German Fischer eddy current thickness gauge DMP10DMP30 measuring probe D-N replaces FTA3.3H

Product Details

GermanyFischerEddy current thickness gaugeDMP10DMP30Measurement probeD-NreplaceFTA3.3H

德国fischer菲希尔涡流测厚仪探头


GermanyFischerEddy current thickness gaugeDMP10DMP30Measurement probeD-NreplaceFTA3.3H

The principle of the eddy current thickness gauge probe is based on the eddy current effect in electromagnetic induction.

When an alternating current is applied to the high-frequency coil inside the probe, an alternating magnetic field is generated;

If the metal substrate is close to the magnetic field, eddy currents will be induced on its surface, and the reverse magnetic field generated by the eddy currents will affect the impedance parameters of the coil.

By measuring the change in coil impedance, the distance between the probe and the metal substrate (i.e. the thickness of the non-conductive coating) can be indirectly calculated


The principle of the eddy current thickness gauge probe is based on the eddy current effect in electromagnetic induction.

When an alternating current is applied to the high-frequency coil inside the probe, an alternating magnetic field is generated;

If the metal substrate is close to the magnetic field, eddy currents will be induced on its surface, and the reverse magnetic field generated by the eddy currents will affect the impedance parameters of the coil.

By measuring the change in coil impedance, the distance between the probe and the metal substrate (i.e. the thickness of the non-conductive coating) can be indirectly calculated


The principle of the eddy current thickness gauge probe is based on the eddy current effect in electromagnetic induction.

When an alternating current is applied to the high-frequency coil inside the probe, an alternating magnetic field is generated;

If the metal substrate is close to the magnetic field, eddy currents will be induced on its surface, and the reverse magnetic field generated by the eddy currents will affect the impedance parameters of the coil.

By measuring the change in coil impedance, the distance between the probe and the metal substrate (i.e. the thickness of the non-conductive coating) can be indirectly calculated


The principle of the eddy current thickness gauge probe is based on the eddy current effect in electromagnetic induction.

When an alternating current is applied to the high-frequency coil inside the probe, an alternating magnetic field is generated;

If the metal substrate is close to the magnetic field, eddy currents will be induced on its surface, and the reverse magnetic field generated by the eddy currents will affect the impedance parameters of the coil.

By measuring the change in coil impedance, the distance between the probe and the metal substrate (i.e. the thickness of the non-conductive coating) can be indirectly calculated


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