Automated technique for building high‐frequency equivalent circuits of motors based on electromagnetic field analysis

Maki, Koichi

doi:10.1002/eej.23395

Cited by 4 publications

(1 citation statement)

References 7 publications

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“…These parameters are frequency dependent because of the skin and proximity effects, and the limited flux penetration due to the reduced penetration depth at high-frequencies. Moreover, high-frequency eddy-currents flowing within single laminations cause a shielding effect of the main flux within the slots, which dramatically affects the series inductance and resistance [14]. The mutual resistance and inductance (i.e., R ij and L ij ) represent the losses and flux linkage induced by the current flowing within neighbouring conductors [11].…”

Section: Interpretation Of Windingsmentioning

confidence: 99%

A Review of Broadband Frequency Techniques for Insulation Monitoring and Diagnosis in Rotating Electrical Machines

Ruiz-Sarrio,

Antonino-Daviu,

Navarro-Navarro

et al. 2024

IEEE Trans. on Ind. Applicat.

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Rotating electrical machines greatly suffer from insulation degradation and failure. The adoption of wide bandgap semiconductors in Variable-Frequency Drives (VFDs) hinder the utilization of traditional techniques such as on-line Partial Discharges (PD) to monitor and diagnose the insulation status and failure. Alternative techniques exploiting the broadband frequency behaviour of machine windings, and the increased high-frequency content of VFD excitation arise as a valid alternative. The present work provides a comprehensive analysis and review of cutting-edge broadband frequency techniques aimed to diagnose winding insulation degradation and faults. First, the broadband nature of machine windings is illustrated by explaining the per-turn equivalent circuit and the physical interpretation of its parameters. Then, the different insulation monitoring and diagnosis methods are thoroughly reviewed. The analysed methods include the Frequency Response Analysis (FRA) applied to rotating electrical machines, the analysis of Common Mode (CM) broadband impedance and parasitic capacitances, and methodologies based on the analysis of transient high-frequency current ringing. Specific focus is placed on the instrumentation, which often represents the main applicability limitations.

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Section: Interpretation Of Windingsmentioning

confidence: 99%