Title :
Optimal commutation laws in the frequency domain for PM synchronous direct-drive motors
Author :
Aghili, Farhad ; Buehler, Martin ; Hollerbach, John M.
Author_Institution :
Canadian Space Agency, Saint-Hubert, Que., Canada
fDate :
11/1/2000 12:00:00 AM
Abstract :
This paper presents a new model for torque generation of permanent-magnet synchronous motors and their control based on Fourier coefficients. A new commutation strategy delivers ripple-free torque and simultaneously minimizes copper losses for the case when the motor´s servo amplifier dynamics are negligible. However, multipole motors give rise to high frequency control signals, and often the dynamics of the current amplifier are no longer negligible. For this case, we present a new commutation strategy. Which minimizes the torque ripple and the velocity induced change. In the torque transfer function. The performance of both commutation laws is validated via simulations based on experimental data from a synchronous motor. Minimal computational requirements make these algorithms ideal for real time implementation
Keywords :
commutation; machine control; permanent magnet motors; synchronous motor drives; torque control; Fourier coefficients; PM synchronous direct-drive motors; commutation strategy; copper losses minimisation; frequency domain; high frequency control signals; motor servo amplifier dynamics; multipole motors; optimal commutation laws; permanent-magnet synchronous motors; ripple-free torque; synchronous motor; torque generation; torque transfer function; velocity induced change minimisation; Commutation; Copper; Frequency control; Frequency domain analysis; Servomechanisms; Servomotors; Synchronous generators; Synchronous motors; Torque control; Transfer functions;
Journal_Title :
Power Electronics, IEEE Transactions on
