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Torque Characteristics Analysis of Slotted-Type Eddy-Current Couplings Using a New Magnetic Equivalent Circuit Model

Chaojun Yang, Zhizhuo Peng, Jiangxi Tai, Zhu Li, Boris Joel Kenne Telezing, Patrick Djomo Ombolo

2020IEEE Transactions on Magnetics34 citationsDOI

Abstract

In this article, a new magnetic equivalent circuit (MEC) model was presented to predict torque characteristics and reaction flux in slotted-type eddy-current couplings (SECs). The magnetomotive force and reaction field caused by eddy current in the conductor were innovatively introduced into the model; particularly, the modulations of the magnetic field and eddy current by iron teeth in conductor disk were taken into account by dividing magnetic flux paths in air gap into several branches. The expressions of magnetic flux and torque were obtained by combining Kirchhoff's law and Ampere's loop law. The torque was calculated using the method proposed and was compared with those obtained by the 3-D finite element method (FEM) and experiment, respectively. The results indicated that the method proposed is accurate and effective under conditions of low slip speeds and short air gap lengths.

Topics & Concepts

Magnetomotive forceEddy currentEddy current brakeConductorMechanicsAir gap (plumbing)PhysicsTorqueMagnetic circuitFinite element methodMagnetic fluxMagnetic fieldAmpereEquivalent circuitCurrent (fluid)Materials scienceVoltageThermodynamicsComposite materialQuantum mechanicsElectric Motor Design and AnalysisElectrical Contact Performance and AnalysisNon-Destructive Testing Techniques
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