Initial Rotor Position Estimation of SynRM Based on Pulsating Voltage Injection Combined With Finite Position Set Algorithm
Hamidreza Pairo, Behnam Nikmaram
Abstract
Initial rotor position estimation is the basis of stable starting without reverse rotation; also, initial position estimation directly affects the maximum starting torque. DC pulse voltage injection is one of the common methods for estimating the initial rotor position, which has low implementation complexity. However, the conventional dc voltage pulse injection methods, which works through injecting three dc voltage pulses, have low accuracy and slow response in estimating initial position. A rotor initial position estimation method based on pulsating voltage injection combined with an iteration algorithm is proposed in this article. This method works by injecting only one dc voltage pulse to the motor and measuring the peak values of currents and fluxes of the motor; afterward, these values should be applied to an iterative algorithm. The iteration algorithm in the proposed method leads to increment of the accuracy of initial position estimation and reduction of the number of injected dc pulses in comparison with the conventional methods. The performance of the proposed method is verified experimentally on a synchronous reluctance motor (SynRM). Also, a comparison between the two conventional methods and the proposed method is provided by this SynRM drive experimental setup.