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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