Title :
Control of a linear permanent magnet brushless DC motor via exact linearization methods
Author_Institution :
Dept. of Electr. & Comput. Eng., West Virginia Univ., Morgantown, WV, USA
fDate :
9/1/1992 12:00:00 AM
Abstract :
The author develops a position controller for permanent magnet brushless DC motors (PMBDCMs) which systematically determines control laws for operation in both the transient and steady-state with consideration of reluctance force. The controller design is based on a differential geometric approach which assists the motor in overcoming its inherent deficiencies, such as effects of torque ripples and reluctance torque. This is achieved by transforming the nonlinear state equations into an exact linear model. Computer simulations of the resulting closed-loop system were performed to demonstrate the effectiveness of the proposed control laws. Simulation results of the control variables were injected into the actual nonlinear system in an experimental open-loop setup to validate the design procedure
Keywords :
DC motors; closed loop systems; control system analysis computing; control system synthesis; digital simulation; linear motors; linearisation techniques; machine control; permanent magnet motors; position control; control system analysis computing; control system synthesis; design; exact linearization; linear permanent magnet brushless DC motor; machine control; nonlinear state equations; position controller; reluctance force; steady-state; torque ripples; transient; Brushless DC motors; Control systems; DC motors; Force control; Nonlinear equations; Open loop systems; Permanent magnet motors; Reluctance motors; Steady-state; Torque control;
Journal_Title :
Energy Conversion, IEEE Transactions on
