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
Main Authors: Zarchi, H Abootorabi, Soltani, J, Arab Markadeh, Gh R, Fazeli, M, Sichani, A K
Format: Conference Proceeding
Language:English
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.
ISSN:2163-5137
DOI:10.1109/ISIE.2010.5637461