Variable structure direct torque control of encoderless synchronous reluctance motor drives with maximized efficiency

Variable structure direct torque control of encoderless synchronous reluctance motor drives with maximized efficiency

In this paper, a flexible DTC based on variable structure approach and space vector modulation is presented for encoderless Synchronous Reluctance Motor (SynRM) Drives. According to this method, a sliding mode-plus-PI controller is designed for torque and flux control in stator flux reference frame,...

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Bibliographic Details
Published in:2010 IEEE International Symposium on Industrial Electronics pp. 1529 - 1535
Main Authors: Zarchi, H Abootorabi, Soltani, J, Arab Markadeh, Gh R, Fazeli, M, Sichani, A K
Format: Conference Proceeding
Language:English
Published: IEEE 01-07-2010
Subjects:
Direct Torque Control
Efficiency-Optimized Strategy
Encoderless
Inverters
Minimization
Sliding Mode
Stators
Switches
Synchronous Reluctance Motor
Torque
Voltage control
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Summary:In this paper, a flexible DTC based on variable structure approach and space vector modulation is presented for encoderless Synchronous Reluctance Motor (SynRM) Drives. According to this method, a sliding mode-plus-PI controller is designed for torque and flux control in stator flux reference frame, respectively. The proposed controller is able to reduce the torque, flux, current and speed pulsations during steady-state behavior while the fast response and robustness merits of the classic DTC are preserved. In addition, an on-line adaptive loss minimization controller (ALMC) for SynRM drives is introduced. The ALMC provides a novel pattern of change in stator flux magnitude to achieve a minimum motor input power at any operating condition. The operating of the ALMC results in a smooth and fast loss minimization. Very low speed estimation (5 r/min) is satisfied by the elimination of the voltage sensors' dc offset. The simulation and experimental results obtained verify that the encoderless efficiency-optimized VS-DTC proposed for SynRM drives presents a good performance with minimized number of dependent parameters.
ISBN:1424463904
9781424463909
ISSN:2163-5137
DOI:10.1109/ISIE.2010.5637461