Abstract
A new sensorless control scheme for Interior Permanent Magnet Synchronous Motor (IPMSM) drives is presented in this paper. In this method, high-frequency low-amplitude current is injected to the stationary α-axis and the corresponding high frequency voltage and the injected current are used to solve for rotor position based on the mathematical model of the motor in the stationary α-β frame. This method does not neglect any term in the mathematical model of the motor and therefore can estimate the rotor position accurately from standstill to the rated speed. The method solves for the rotor position in the stationary α-β frame and therefore is easy to implement. The method has been verified with simulation results, which show the position estimation error of the method is from 1°(electrical) at standstill to 4° at the rated speed.
Published Version
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