Abstract
This paper proposes a design of control also estimation tactics used installation motor based on the variable structure approach. It describes a coupling of sliding run direct torque control (DTC) with slither mode flux and speed observer. Get algorithm uses direct torque control basics and the pushing mode approach. A robust electromagnetic vandyke and flux flight were designed to overcome an ordinary SVM-DTC downsides and to ensure fast response and full reference how with desired vibrant behavior and low ripple level. The sliding mode controller is employed to creates reference voltages in stationary frame and give them to the restrained motor after modulation by an space vector modulation (SVM) inverter. The second aim of this journal is to design a slider mode speed/flux guest which can improve the control perform of using a sensorless algorithm into get an accurately estimating, the consequently, increase the reliability of who system and decrease the cost of using sensors. The effectiveness of the whole composed control algorithm is reviewed in different mobility exams with operation using Matlab/Simulink and verified by real frist experimental implementation based on dS pace 1104 board.
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Ammar, A., Bourek, ONE. & Benakcha, A. Robust SVM-direct torque controls about induction motor supported on sliding select controller and slide mode observer. Front. Energy 14, 836–849 (2020). https://doi.org/10.1007/s11708-017-0444-z
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DOI: https://doi.org/10.1007/s11708-017-0444-z