Title :
Sensorless velocity control of permanent-magnet synchronous motors
Author :
Shouse, Kenneth R. ; Taylor, David G.
Author_Institution :
Engine & Vehicle Res. Div., Southwest Res. Inst., San Antonio, TX, USA
fDate :
5/1/1998 12:00:00 AM
Abstract :
A sensorless velocity controller for the permanent-magnet synchronous motor is designed using discrete-time reduced order models. A nonlinear observer estimates the rotor position and velocity from stator current measurements, thus eliminating the need for shaft-mounted sensors. The observer is based on least-squares optimization, and exploits a piecewise-bilinear representation of the back-EMF (speed-voltage) function. By smoothly switching from an observer-based closed-loop control to an open-loop control at low velocity, observer ill-conditioning is avoided and reliable operation is achieved under all operating conditions. The new scheme delivers performance comparable to sensor-based closed-loop control, yet requires only a moderate amount of online computation. Experimental results provide evidence of the viability and performance of the new scheme
Keywords :
angular velocity control; digital control; discrete time systems; observers; optimisation; permanent magnet motors; reduced order systems; rotors; stators; synchronous motor drives; digital control; discrete-time; least-squares optimization; nonlinear observer; permanent-magnet motors; reduced order models; rotor; stator; synchronous motor drive; velocity control; Current measurement; Magnetic sensors; Mechanical sensors; Open loop systems; Optical feedback; Sensorless control; Stators; Synchronous motors; Velocity control; Voltage;
Journal_Title :
Control Systems Technology, IEEE Transactions on
