Title :
Load Torque Estimation and Passivity-Based Control of a Boost-Converter/DC-Motor Combination
Author :
Linares-Flores, Jesús ; Reger, Johann ; Sira-Ramírez, Hebertt
Author_Institution :
Post-Grad. Div., Univ. Tecnol. de la Mixteca, Huajuapan de León, Mexico
Abstract :
An algebraic approach is presented for the fast feed-forward adaptation of the angular velocity trajectory tracking task in a Boost-converter driven dc-motor system. For the adaptation, the load torque perturbations are assumed piecewise constant and are, nonasymptotically, online estimated using the available noisy measurements of the state variables. The controller is a linear controller based on the exact tracking error dynamics passive output feedback (ETEDPOF) controller design methodology including suitable adaptive feed-forward precompensation depending explicitly on the precisely estimated torque. The performance of the adaptation, which is achieved by means of the algebraic online-estimation of the current unknown load torque, is successfully validated in an experimental laboratory setup.
Keywords :
DC motors; angular velocity control; control system synthesis; feedback; linear systems; machine control; power convertors; torque control; adaptive feedforward precompensation; angular velocity trajectory tracking task; boost-converter driven dc-motor system; exact tracking error dynamics passive output feedback controller design methodology; linear controller; load torque estimation; load torque perturbations; passivity-based control; Angular velocity; Angular velocity control; Control systems; Error correction; Feedforward systems; Linear feedback control systems; State estimation; Torque control; Torque measurement; Trajectory; Algebraic estimation; electrical drives; flatness-based trajectory planning; passivity-based control; power electronics;
Journal_Title :
Control Systems Technology, IEEE Transactions on
DOI :
10.1109/TCST.2009.2037809
