Theoretical and Experimental Reevaluation of Synchronous Reluctance Machine
Moghaddam, R.R. Magnussen, F. Sadarangani, C.
R. Inst. of Technol. (KTH), Stockholm, Sweden;
This paper appears in: Industrial Electronics, IEEE Transactions on Accepted for future publication
First Published:
2009-06-16
ISSN: 0278-0046
Digital Object Identifier: 10.1109/TIE.2009.2025286
Abstract
This paper theoretically introduces and develops a new operation diagram (OPD) and parameter estimator for the synchronous reluctance machine (SynRM). The OPD demonstrates the behavior of the machine's main performance parameters, such as torque, current, voltage, frequency, flux, power factor (PF), and current angle, all in one graph. This diagram can easily be used to describe different control strategies, possible operating conditions, both below- and above-rated speeds, etc. The saturation effect is also discussed with this diagram by finite-element-method calculations. A prototype high-performance SynRM is designed for experimental studies, and then, both machines' [corresponding induction machine (IM)] performances at similar loading and operation conditions are tested, measured, and compared to demonstrate the potential of SynRM. The laboratory measurements (on a standard 15-kW Eff1 IM and its counterpart SynRM) show that SynRM has higher efficiency, torque density, and inverter rating and lower rotor temperature and PF in comparison to IM at the same winding-temperature-rise condition. The measurements show that the torque capability of SynRM closely follows that of IM.
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