In the research, the method of reducing the levels of all noises caused by uncontrollable interfering factors has been generalized and extended to surface eddy current conductivity meters of the substrate under a layer of non-ferromagnetic metal coating. The method is applied at the probe design stage as a result of Taguchi's optimization search for a combination of ECP parameters that reduces the influence of noise factors. The designs of self-differential UECPs were analyzed. Dynamic measurements of substrate conductivity were considered. Variants of TO structures with non-magnetic and weakly magnetic substrates were investigated, i.e., eddy current conductivity measurements were extended to objects with weakly magnetic substrates. As a result of confirmatory experiments, the effectiveness of the obtained optimal combinations of parameters for both variants of TO structures was proven. The option with rectangular coils was selected as the one with the maximum SNR among the optimized alternative designs of the ECP. The variance analysis established the ranks of the influence of the measuring parameters on the SNR. The statistical significance of the analyzed parameters was determined. The Monte Carlo numerical-experimental method demonstrated the advantages of optimal designs, which are characterized by lower signal variability under the influence of noise factors.
Halchenko et al. (Mon,) studied this question.