Abstract
The precise information of initial rotor position is very important to high performance Interior Permanent Magnet Synchronous Machine (IPMSM) adopting incremental encoder, which can normally be obtained by the high-frequency (HF) rotating or pulsating voltage injection methods. However, the demodulation procedure may confront with the challenge of constrained stability and limited accuracy. For improving estimation accuracy, an improved impulse injection method with merits of simple and fast is proposed. It is carried out by generating a series of phase-axial injections to calculate the probable rotor position, then injecting two reciprocal voltage pulses to obtain the rotor polarity, and finally injecting iterative voltage vectors to obtain the real position rapidly. During the estimation process, the filters to extract the high frequency current signals are not needed. The method effectiveness is validated by the measured results of IPMSM test platform. In the same time, its application limitation is deduced by comparison with the measured results between IPMSM and surface-mounted PMSM (SPMSM). It is shown that the estimation algorithm is compatible with motor parameter differences and can reduce the influence of inductance saturation and nonlinear voltage error. Therefore, the proposed method not only improves the accuracy and robustness of the PMSM sensorless startup control, but also ensures the fast response.
Highlights
In high performance electrical system driven by Permanent Magnet Synchronous Machines (PMSMs), the precise information of rotor position is required for optimizing voltage and current controls
By utilizing inductance saturation effect, the proposed current injection method is proved to be available for both Interior Permanent Magnet Synchronous Machine (IPMSM) and surface-mounted PMSM (SPMSM)
This paper proposed an improved estimation method of initial rotor position based on symmetric pulsating injections for IPMSM drives
Summary
In high performance electrical system driven by Permanent Magnet Synchronous Machines (PMSMs), the precise information of rotor position is required for optimizing voltage and current controls. In (15) and (16), due to the error ratio, the sampling interval and the stator resistance are all reduced, the estimation algorithm is robust and insensitive to system parameters This performance ensures very flexible requirement of system setting, regardless of the voltage amplitude, the impulse duration or the current sampling time. If the excited currents by double voltage vectors have different saturation effect on d-axis, the estimated position calculated in (6) is needed to be revised according to inductance variations To handle this problem, a principle of voltage injection is proposed that the double vectors need to be linearly independent and symmetric about the d-axis [13], and the current vectors are symmetric about the d-axis as well, as shown in Fig. where γ1 = γ2.
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