Rotor flux oriented control of induction machine based drives with compensation for the variation of all machine parameters

• Published in: Bulletin of the Polish Academy of Sciences. Technical sciences Vol. 61; no. 2; pp. 309 - 324
• Main Authors: Extremiana, G., Abad, G., Arza, J., Chivite-Zabalza, J., Torre, I.
• Format: Journal Article
• Language: English
• Published: Warsaw Polish Academy of Sciences 01.06.2013
• Subjects: Algorithms; Flux; Iron losses; Mathematical models; On-line systems; Rest; Rotors; Strategy
• ISSN: 0239-7528; 2300-1917; 2300-1917
• DOI: 10.2478/bpasts-2013-0029

The performance of rotor flux oriented induction motor drives, widely used these days, relies on the accurate knowledge of key machine parameters. In most industrial drives, the rotor resistance, subject to temperature variations, is estimated on-line due to its significant influence on the control behaviour. However, the rest of the model parameters are also subject to slow variations, determined mainly by the operating point of the machine, compromising the dynamic performance and the accuracy of the torque estimation. This paper presents an improved rotor-resistance on-line estimation algorithm that contemplates the iron losses of the electrical machine, the iron saturation curve and the mechanical losses. In addition, the control also compensates the rest of the key machine parameters such as the leakage and magnetizing inductances and the iron losses. These parameters are measured by an off-line estimation procedure and stored in look up-tables used by the control. The paper begins by presenting the machine model and the proposed rotor flux oriented control strategy. Subsequently, the off-line parameter measurement procedure is described. Finally, the algorithm is extensively evaluated and validated experimentally on a 15 kW test bench