Advances in Electrical and Electronic Engineering (Jan 2020)

Nonlinear Observer Design for Load Torque Estimation of Induction Motors

  • Giang Hoang Vu,
  • Hamed Yahoui,
  • Hassan Hammouri

DOI
https://doi.org/10.15598/aeee.v18i3.3810
Journal volume & issue
Vol. 18, no. 3
pp. 153 – 159

Abstract

Read online

The paper introduces a design of a nonlinear observer for the estimation of load torque of induction motors based on the output of the stator currents. The observer is built in the synchronous reference frame d-q with three main steps. First, the nonlinear observer for the class of non-affine control systems is reviewed. Second, the induction motor model is written in an appropriate form as a non-affine control system with canonical form for the design of the nonlinear observer. The system state is composed of the stator currents, speed and load torque. Based on the stator currents, the rotor flux leakages are estimated via an open loop and used for the load torque observer. The observer is designed with a constant gain which is calculated by considering the trajectory of the rotor flux leakages. Both the load torque and rotor speed can be estimated by using the proposed observer. Finally, simulation and experiment are carried to validate the effectiveness and robustness of the proposed observer.

Keywords