Litcius/Paper detail

Disturbance Attenuation for Surface-Mounted PMSM Drives Using Nonlinear Disturbance Observer-Based Sliding Mode Control

Anh Tuan Nguyen, Bilal Abdul Basit, Han Ho Choi, Jin‐Woo Jung

2020IEEE Access53 citationsDOIOpen Access PDF

Abstract

This paper proposes a nonlinear disturbance observer (NDO)-based sliding mode speed controller (SMSC) to guarantee the superior control performance in terms of robustness, fast transient response, and small steady-state error for a surface-mounted permanent magnet synchronous motor (SPMSM) drive. Generally, the control performance of the SPMSM drives can be degraded by disturbances, so an NDO with a proper disturbance rejection capability is proposed to appropriately improve the tracking performance of the SMSC designed for the SPMSM drives. Unlike the linear disturbance observers (LDOs), the proposed NDO can efficiently estimate the lumped disturbance such as uncertainties parameters and unmodeled dynamics by using the nonlinear design function. The proposed NDO rejects the complex disturbances as well as self-regulates the observer gains to increase the convergence rate. The feasibility of the proposed NDO-based SMSC is verified by using a MATLAB/Simulink software program and a prototype SPMSM drive system with a TI TMS320F28335 digital signal processor (DSP). The comparative results with a conventional LDO-based SMSC are analyzed under load torque disturbances and model uncertainties to prove the excellent performance of the proposed NDO-based SMSC.

Topics & Concepts

Control theory (sociology)Computer scienceRobustness (evolution)AttenuationNonlinear systemDisturbance (geology)MATLABTorqueSliding mode controlControl (management)PhysicsArtificial intelligenceOpticsBiochemistryChemistryOperating systemQuantum mechanicsThermodynamicsPaleontologyGeneBiologySensorless Control of Electric MotorsIterative Learning Control SystemsAdaptive Control of Nonlinear Systems