Title :
A digital self-tuning tracking controller for permanent-magnet synchronous motors
Author :
Shouse, Kenneth R. ; Taylor, David G.
Author_Institution :
Div. of Engine & Vehicle Res., Southwest Res. Inst., San Antonio, TX, USA
fDate :
12/1/1994 12:00:00 AM
Abstract :
A new digital self-tuning tracking controller for the permanent-magnet synchronous motor is presented, providing for either velocity or position trajectory tracking when both the electrical and mechanical parameters of the motor are unknown. A time-scale simplification leads to a discrete-time design model that is reduced order and that evolves in the slower mechanical time scale. A new piecewise-linear parameterization of the motor torque-angle characteristic functions and cogging allows for arbitrarily accurate identification of higher-order harmonics, without requiring more computation than traditional single-term sinusoidal descriptions. Experimental results demonstrate that good performance is achieved even with very poor initial parameter knowledge
Keywords :
digital control; machine control; permanent magnet motors; self-adjusting systems; synchronous motors; tracking; tuning; cogging; digital self-tuning tracking controller; discrete-time design model; higher-order harmonics; permanent-magnet synchronous motors; piecewise-linear parameterization; position trajectory tracking; time-scale simplification; torque-angle characteristic functions; velocity tracking; Adaptive control; Brushless motors; Digital control; Equations; Forging; Fourier series; Piecewise linear techniques; Synchronous motors; Trajectory; Velocity control;
Journal_Title :
Control Systems Technology, IEEE Transactions on
