DSOGI Based Time Delay Suppression for Sensorless Control of SPMSM Using Pulsating High Frequency Voltage Injection

This article proposes an improved pulsating high frequency voltage injection method to suppress the time delay for sensorless control of surface mounted permanent magnet synchronous motor (SPMSM). Firstly, the high frequency (HF) voltage is still injected into the estimated d-axis. However, the HF current demodulation is at αβ -axis, both the positive and negative sequence component of HF current are utilized for rotor position estimation, the impact of system delay on position estimation is suppressed. Secondly, dual second order generalized integrator (DSOGI) based adaptive band pass filters (BPFs) are proposed to eliminate the filtering delay in the HF current demodulation process, the conventional BPF is removed. Finally, the experimental results verify that the time delay is suppressed and accuracy of position estimation is improved significantly using the proposed method.