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This paper presents the a adaptive sliding mode speed control design procedure for robust stabilization and disturbance rejection of the current sensorless synchronous reluctance motor (SynRM) drive system. In this paper, we proposed a novel adaptive sliding mode control to avoid the conventional sliding mode control, which causes high frequency chattering and high gain phenomenon drawbacks due to...
A synchronous reluctance motor driven by an integral variable structure grey controller for current sensorless is presented. We adopt a maximum torque control strategy. The integral variable structure controller is used to reject the uncertain bounded disturbances and parameter variations. The grey prediction can reduce the high frequency chattering phenomenon or eliminate steady state error due to...
This paper presents a Lyapunov second method for synchronous reluctance motor (SynRM) drive system. We use the speed and current errors to form a Lyapunov function and the controller is designed by the method of the lyapunov and adaptive theory. The controller approach compensates the uncertainties which occurs in the control system. However, the uncertainty is difficult to obtain in practical applications...
A synchronous reluctance motor driven by an integral variable structure controller for current sensorless is presented. The mathematical model for the synchronous reluctance motor includes core loss. We develop a maximum torque control strategy. The integral variable structure controller is used to reject the uncertain bounded disturbances and parameter variations. The voltage reference equation generates...
A synchronous reluctance motor driven by an integral variable structure controller for current sensorless is presented. The mathematical model for the synchronous reluctance motor includes core loss. We develop a maximum torque control strategy. The integral variable structure controller is used to reject the uncertain bounded disturbances and parameter variations. The voltage reference equation generates...
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