Title :
Adaptive Reshaping of Excitation Currents for Accurate Torque Control of Brushless Motors
Author_Institution :
Canadian Space Agency, Saint-Hubert
fDate :
3/1/2008 12:00:00 AM
Abstract :
Accurate torque control of a brushless motor requires the motor´s torque characteristics, which follows a periodic function of motor angle. This brief presents a direct adaptive controller for torque control of brushless motors, which estimates the Fourier coefficients of this periodic function based on the measurements of motor phase voltage and angle. It will be analytically shown that the proposed adaptive controller achieves torque tracking regardless of the trajectories of input signals. Moreover, the adaptive controller does not rely on the modeling of the mechanical load, so that control implementation is simple and modular. Experimental results obtained from the McGill/MIT motor have demonstrated that motor torque converges to the command torque.
Keywords :
Fourier series; adaptive control; brushless DC motors; control system analysis; machine control; motion control; self-adjusting systems; stability; torque control; Fourier coefficients; adaptive controller; adaptive excitation current reshaping; brushless motors; commutatorless dc motors; motion control; motor phase voltage; periodic function; torque control; torque tracking; Adaptive control; Fourier series; commutatorless dc motors; industrial electronics; motion control; power electronics; servomotors; torque control;
Journal_Title :
Control Systems Technology, IEEE Transactions on
DOI :
10.1109/TCST.2007.908213
