Properties of Cogging Torque, Starting Torque, and Electrical Circuits for the Single-Phase Brushless DC Motor

Properties of Cogging Torque, Starting Torque, and Electrical Circuits for the Single-Phase Brushless DC Motor

A single-phase brushless dc motor requires an asymmetric air gap to eliminate the dead point where the excitation net torque is zero. In this paper, we use the finite-element method (FEM) to analyze the properties of cogging torque, starting torque, and electrical circuits. Others have discussed the...

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Veröffentlicht in:IEEE transactions on magnetics 2008-10, Vol.44 (10), p.2317-2323
Hauptverfasser: CHIU, Chun-Lung, CHEN, Yie-Tone, JHANG, Wun-Siang
Format: Artikel
Sprache:eng
Schlagworte:
Air gaps
Asymmetric air-gap
Asymmetry
Brushes
Brushless DC motors
Brushless motors
Circuits
Cogging
Computer simulation
Cross-disciplinary physics: materials science
rheology
DC motors
Electric circuits
Exact sciences and technology
Finite element method
finite-element method (FEM)
Forging
Induction motors
Magnetism
Materials science
Mathematical models
Optimization
Other topics in materials science
Physics
single-phase brushless dc motor
Stators
Torque
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Zusammenfassung:A single-phase brushless dc motor requires an asymmetric air gap to eliminate the dead point where the excitation net torque is zero. In this paper, we use the finite-element method (FEM) to analyze the properties of cogging torque, starting torque, and electrical circuits. Others have discussed the influences of various asymmetric air gaps on these properties. However, the optimum asymmetric air-gap condition is very difficult to find. Here, we describe an optimum asymmetric air-gap structure that not only produces an optimum starting torque but also reduces the cogging torque to a tolerable range. We compare simulation results with the measurement results to illustrate the accuracy of the FEM model.
ISSN:0018-9464
1941-0069
DOI:10.1109/TMAG.2008.2000761