This paper presents an initial rotor position estimation algorithm of asymmetric air-gap single-phase permanent magnet synchronous motors without using a hall sensor. Generally, the common problem associated with the sensorless drive is the starting operation. Most sensorless control methods are based on back-EMF. However, when motor is at standstill or low speed, the back-EMF is too small to detect rotor position. Therefore, high frequency injection methods are widely used in the standstill or low speed region. In case of the SP-PMSM, when high frequency signal is injected to asymmetric air-gap single-phase PMSM motors, flux saturation is not occurred at air gap unlike 3-phase PMSM. Due to alternating magnetic field at the air-gap, initial rotor position of the SP-PMSM is hard to be estimated. As a result, in this paper, DC offset voltage is added to the high frequency injection signal to generate flux saturation at the air-gap of the SP-PMSM. The several experimental results show that the proposed algorithm is effectiveness and usefulness for SP-PMSM with non-uniform air-gap.


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    Title :

    Initial Rotor Position Estimation of Single-phase Permanent Magnet Synchronous Motor with Asymmetric Air-gap


    Contributors:


    Publication date :

    2018-06-01


    Size :

    743965 byte




    Type of media :

    Conference paper


    Type of material :

    Electronic Resource


    Language :

    English