Title :
Online identification method of static & dynamic inductance of IPMSM for fine position sensorless control
Author :
Tanpo, Shintaro ; Takahashi, Ryo ; Ohishi, Kiyoshi ; Makishima, Shingo ; Uezono, Keiichi
Author_Institution :
Nagaoka Univ. of Technol., Nagaoka, Japan
Abstract :
When position-speed sensorless control is used, the estimation error of the position often becomes large because of inductance value fluctuation due to the current. Therefore, this paper proposes a online parameter identification method to identify the static inductance and the dynamic inductance and magnet flux by using fixed trace algorithm. In the proposed method, the harmonic is superimposed into the motor voltage reference or motor current reference. As the result, the estimation error of the position is reduced by the proposed method because the identified inductance is reflected in the position-speed sensorless control. The validity of proposed method is confirmed by the numerical simulation results and the experiment results in this paper.
Keywords :
angular velocity control; magnetic flux; parameter estimation; permanent magnet motors; position control; sensorless machine control; synchronous motors; AC motor control; IPMSM dynamic inductance identification; IPMSM static inductance identification; fine position-speed sensorless control; fixed trace algorithm; inductance value fluctuation; interior permanent magnet synchronous motor; magnet flux; motor current reference; motor voltage reference; online parameter identification method; position estimation error reduction; Estimation error; Harmonic analysis; Heuristic algorithms; Inductance; Permanent magnet motors; Sensorless control; Synchronous motors; Fixed Trace Algorithm; IPMSM; Position·Sensorless Control; Static·Dynamic Inductances;
Conference_Titel :
Sensorless Control for Electrical Drives (SLED), 2014 IEEE 5th International Symposium on
Conference_Location :
Hiroshima
Print_ISBN :
978-1-4799-5783-5
DOI :
10.1109/SLED.2014.6844963
