Title :
Cascade Control of PM DC Drives Via Second-Order Sliding-Mode Technique
Author :
Pisano, Alessandro ; Davila, Alejandro ; Fridman, Leonid ; Usai, Elio
Author_Institution :
Dept. of Electr. & Electron. Eng., Univ. of Cagliari, Cagliari
Abstract :
This paper presents a novel scheme for the speed/position control of permanent-magnet (PM) DC motor drives. A cascade-control scheme, based on multiple instances of a second-order sliding-mode-control (2-SMC) algorithm, is suggested, which provides accurate tracking performance under large uncertainty about the motor and load parameters. The overall control scheme is composed of three main blocks: (1) a 2-SMC-based velocity observer which uses only position measurements; (2) a 2-SMC-based velocity control loop that provides a reference command current; and 3) a 2-SMC-based current control loop generating the reference voltage. The proposed scheme has been implemented and tested experimentally on a commercial PM DC motor drive. The experimental results confirm the precise and robust performance and the ease of tuning and implementation, featured by the proposed scheme.
Keywords :
DC motor drives; angular velocity control; cascade control; electric current control; machine control; observers; permanent magnet motors; position control; variable structure systems; PM DC drives; cascade control; current control loop; permanent-magnet DC motor drives; position measurement; second-order sliding-mode technique; speed/position control; velocity control loop; velocity observer; Cascade control; SM differentiators; dc motor drives; second-order sliding-mode (2-SM) control (2-SMC);
Journal_Title :
Industrial Electronics, IEEE Transactions on
DOI :
10.1109/TIE.2008.2002715
