Kaifeng Qu scite author profile

Applying shielding coils is a practical way to protect current transformers (CTs) for large-capacity generators from the intensive magnetic interference produced by adjacent bus-bars. The aim of this study is to build a simple analytical model for the shielding coils, from which the optimization of the shielding coils can be calculated effectively. Based on an existing stray flux model, a new analytical model for the leakage flux of partial coils is presented, and finite element method-based simulations are carried out to develop empirical equations for the core-pickup factors of the models. Using the flux models, a model of the common four-segment shielding coils is derived. Furthermore, a theoretical analysis is carried out on the optimal performance of the four-segment shielding coils in a typical six-bus-bars scenario. It turns out that the “all parallel” shielding coils with a 45° starting position have the best shielding performance, whereas the “separated loop” shielding coils with a 0° starting position feature the lowest heating value. Physical experiments were performed, which verified all the models and the conclusions proposed in the paper. In addition, for shielding coils with other than the four-segment configuration, the analysis process will generally be the same.

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The effect of interfering flux on direct current comparator

Shao

Pan

et al. 2010

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Design of equivalent coils for anti- interference testing of heavy current transformers

Gao

Zhao

Qu³

et al. 2018

JAE

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Magnetic Shielding Effectiveness of Current Comparator

Shao

Lin

et al. 2013

IEEE Trans. Instrum. Meas.

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This paper describes the calculation of the magnetic shielding effectiveness in current comparators, considering the air gap which is inevitable for the magnetic shielding. The method was verified to be accurate and effective by finite-element method analysis. Experiments were implemented to investigate the effect of the air gap as well.Index Terms-Current comparator, finite-element method (FEM), magnetic shielding, measurement, measurement standards, measurement uncertainty, precision measurements.

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Kaifeng Qu

SSWT and VMD Linked Mode Identification and Time-of-Flight Extraction of Denoised SH Guided Waves

New Testing Method of the Shielding Effect of Heavy Current Transformer With Shielding Coils

Development of Frequency-Mixed Point-Focusing Shear Horizontal Guided-Wave EMAT for Defect Inspection Using Deep Neural Network

Eccentric Bus-Bar Testing Method of the Shielding Effect of a Heavy Current Transformer With Shielding Coils

Modelling and Optimization of Four-Segment Shielding Coils of Current Transformers

The effect of interfering flux on direct current comparator

Design of equivalent coils for anti- interference testing of heavy current transformers

Magnetic Shielding Effectiveness of Current Comparator

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