Abstract
Induction motor drive control and estimation is a wide subject. The market for variable speed drives has grown dramatically in the last few years. Manufacturers have recognized the importance of not only managing the speed or torque range, but also reducing power consumption. This necessitates the development of new control algorithms and schemes to include these solutions. Indeed, the speed estimate must be employed in one or more regions of the control scheme, depending on the control objective. This concept, as well as the most common speed estimation methodologies, is investigated. Currently, many tools can be used for the evaluation of the rotor speed without a speed sensor. By modern signal processing methods, it is possible to implement an estimation scheme with the possibility of monitoring currents and voltages. Therefore, in this paper, the concept of currents, speed and fluxes estimation based on the extended Kalman filter is proposed. By monitoring the ratio of the theoretical residual to the actual residual, the measured noise covariance matrix is recursively corrected online to make it gradually approach the real noise level. So that the filter performs the optimal estimation, improves the accuracy of the speed estimation. The effect of the load change on the currents, fluxes and speed estimation was also studied. Simulation and experimental results show that the proposed improved adaptive extended Kalman estimator has a strong ability to suppress random measurement noise. The experimental and simulation results prove the accuracy of the proposed scheme towards the state estimation of an induction motor at different load levels. It can accurately estimate the speed of the motor and has a good anti-error ability to meet the actual needs of the project.
Highlights
In the field of modern motor control, induction motor vector control technology has been widely used due to its excellent control performance [1]
The results show that combining the estimation method proposed in this paper with other kinds of induction motor control methods provides better control results
Experimental results The extended Kalman filter (EKF) method has been experimentally evaluated for a squirrel cage induction motor
Summary
In the field of modern motor control, induction motor vector control technology has been widely used due to its excellent control performance [1]. Because the use of the speed sensor destroys the advantages of the induction motor’s simple structure, reliability, low cost and convenient maintenance, it limits its application range and reduces the robustness of the system. Speed sensorless control has become an important research direction of modern AC drive control technology, and a key technology for studying high-performance general-purpose inverters [2]. A high-performance four-quadrant drive that can generate controlled torque over the whole speed range is required. The main problems are poor dynamic characteristics, limited adjustment capabilities, susceptibility to external environmental interference, and jitter in the speed estimation scheme. It can decrease the cost and size of the electric drive system by eliminating sensors and subsequently improving system reliability
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