Open AccessParameter estimation of squirrel‐cage motors with parasitic torques in the torque–slip curve
Author(s) -
Monjo Lluis,
Córcoles Felipe,
Pedra Joaquin
Publication year - 2015
Publication title -
iet electric power applications
Language(s) - English
Resource type - Journals
ISSN - 1751-8679
DOI - 10.1049/iet-epa.2014.0208
Subject(s) - torque , control theory (sociology) , stall torque , squirrel cage rotor , harmonics , torque motor , direct torque control , slip (aerodynamics) , induction motor , physics , mechanics , engineering , computer science , electrical engineering , voltage , control (management) , artificial intelligence , thermodynamics
This paper studies parasitic torques in steady‐state torque–slip curves of squirrel‐cage induction motors. The curves of nine motors (small, medium and large size units), three of which were measured in the range s = 2 to 0, are analysed. The torque–slip curves of eight of these nine motors differ significantly from the smooth curves predicted by the classical single‐ and double‐cage models: a torque dip at large slips in the motoring regime and a notable torque increase in the braking regime occur. As parasitic torques have been traditionally associated with space harmonics, two single‐cage chain models (which consider the space harmonics) are tested to fit the measured torque and current of the three measured motors: one neglects the skin effect, leading to the wrong torque prediction, whereas the other (the chain model proposed in the early 60s in the literature) considers the skin effect, leading to an accurate torque prediction.