期刊
IEEE JOURNAL OF EMERGING AND SELECTED TOPICS IN POWER ELECTRONICS
卷 10, 期 2, 页码 1978-1991出版社
IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
DOI: 10.1109/JESTPE.2021.3081863
关键词
Uncertainty; Observers; Sensorless control; Perturbation methods; Control systems; Robustness; Space vector pulse width modulation; Induction motor (IM); observer; sensorless control; sliding-mode control (SMC); terminal sliding-mode
资金
- Heilongjiang Postdoctoral Financial Assistance [LBHZ19166]
- National Natural Science Foundation of China [62073095, 61673132, 51907042]
- Australian Research Council Discovery Project [DP210103278]
This article proposes a sensorless speed control approach of Induction motor (IM) using full-order terminal sliding-mode (FOTSM) control theory. The approach consists of three feedback control loops for speed, flux, and current control, with FOTSM controllers designed to improve robustness and dynamic performance. The outer-loop speed controller utilizes virtual control technique to compensate for uncertainties in the system, while the inner-loop controllers ensure convergence of current tracking errors. A FOTSM observer is also designed for simultaneous estimation of motor flux and speed. Experimental results demonstrate the effectiveness and feasibility of the proposed approach for sensorless speed control of IM.
This article proposes a sensorless speed control approach of Induction motor (IM) applying full-order terminal sliding-mode (FOTSM) control theory. The speed control system consists of three feedback control loops, i.e., the speed-, flux-, and current-loops. The related controllers in these three feedback loops are designed using FOTSM to enhance the robustness and dynamic performance, eliminate the singularity, and attenuate the chattering. The virtual control technique is utilized in the outer-loop speed controller to compensate unmatched uncertainties in the system, such as load disturbance and some parameter variations. The integral-type continuous control law with gain adaptation algorithm guarantees that the current references are smooth. In the inner-loop controllers, the actual voltage control signals can force the tracking errors of the currents to converge to its equilibrium point within finite time. Meanwhile, the FOTSM observer is designed for estimating the flux and speed of the motor simultaneously. Finally, the experiment results have demonstrated the effectiveness and feasibility of the proposed sliding-mode controllers and observers for the sensorless speed control of IM.
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