Influence of Shielding on the Magnetic Field Measurement by Direct H-Coil Method in a Double-Yoked SST

Mailhé, Benjamin Joseph; Elias, Ricardo de Araujo; Silva, Indiara Pitta Correa da; Sadowski, N.; Batistela, Nelson Jhoe; Kuo‐Peng, Patrick

doi:10.1109/tmag.2017.2758959

Cited by 4 publications

(1 citation statement)

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“…A large number of experiments have confirmed that the specific total loss, the specific apparent power, and other magnetic performance indexes of the grain-oriented electrical steel measured by the HC method are significantly lower than those measured by the MC method [ 15 , 16 ] because the HC method directly measures the magnetic field strength of the investigated sample without the involvement of the effective magnetic path length [ 15 , 17 , 18 , 19 ], and an assumed effective magnetic path length, not the actual effective magnetic path length, is suggested for the MC method. It is also found that the effective magnetic path length in the actual measurement is not a constant, which depends on the material and manufacturing process of the permeameters, the characteristics of the investigated sample, and the measurement conditions.…”

Section: Resultsmentioning

confidence: 99%

Study on the Single Sheet Measurement Method for AC Magnetic Measurement on Grain-Oriented Electrical Steel

Xiang

Cheng

2023

Materials

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To quickly and accurately measure the AC magnetic properties of grain-oriented electrical steel by means of the existing measuring system designed for the magnetizing current method (MC), specifically the SST (92) single sheet method, in this work, the H-coil (HC) measuring system, which directly senses the magnetic field strength of the tested sample, was designed to measure the AC magnetic properties of the grain-oriented electrical steel. The assumed effective magnetic path length introduced in the MC method was corrected by comparing the measurement results obtained by means of HC and MC methods. The results found that specific total loss measured by the HC method was significantly lower than that measured by the classical magnetizing current (MC) method. Taking the HC method as the reference, the influencing factors of the effective magnetic path length was studied. It was found that the actual effective magnetic path length depends on the investigated sample characteristics, the measurement conditions, as well as yoke characteristics. The actual effective magnetic path length introduced in the MC method is examined to be more than 450 mm, fluctuating around 468 mm.

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Section: Resultsmentioning

confidence: 99%