Impact of interior permanent magnet rotor design on signal injection based sensorless control and power conversion

Impact of interior permanent magnet rotor design on signal injection based sensorless control and power conversion. Brown, I., Sizov, G., & Brown, L. Industry Applications, IEEE Transactions on, 2015.
bibtex

@article{ 5625903,
  author = {Brown, I.P. and Sizov, G.Y. and Brown, L.E.},
  journal = {Industry Applications, IEEE Transactions on},
  title = {Impact of interior permanent magnet rotor design on signal injection based sensorless control and power conversion},
  year = {2015},
  keywords = {power conversion;rotors;induction machine design methodology;power conversion properties;rotor bridge opening fill;rotor bridge opening height;rotor bridge opening width;saliencies properties;self-sensing;special switching pattern;Bridge circuits;Bridges;Harmonic analysis;Induction machines;Modulation;Rotors;Torque;Carrier rotor position saliency;carrier signal injection;induction machines (IMs);saturation saliency;self-sensing},
  doi = {}
}

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