论文信息 - An optimized Extended Kalman filter algorithm for Hybrid Stepper Motors

An optimized Extended Kalman filter algorithm for Hybrid Stepper Motors

In this article a high performance Extended Kalman filter algorithm is used to estimate rotor speed, rotor position and load torque in a Hybrid Stepper Motor (HSM). Together with a PI speed controller, the Kalman filter forms a very robust sensorless closed loop system. During acceleration the motor is capable of running in closed loop from 0-100% of the nominal speed. The controller can handle charge steps of over 50% of the maximum load torque, and acceleration up to 13 [krad/s/sup 2/]. To achieve theses good dynamic capabilities, the Kalman filter is optimized by an off-line identification process. This gives a very good match between the model and the real system. The standstill position at start-up is estimated by a current injection method. Due to the optimized Kalman filter the experimental results show very good precision and closed loop robustness for a 10.5 [W] HSM. The algorithm is implemented on a floating point DSP. The driver consists of two H-bridges with MOSFET transistors. The currents are measured with one shunt resistor for each phase.

Yves Perriard | J. Persson

[1] G. Brandenburg,et al. Sensorless field oriented speed control of a hybrid and a permanent magnet disk stepper motor using an extended Kalman filter , 1997, 1997 IEEE International Electric Machines and Drives Conference Record.

[2] M. Boussak. Digital Signal Processor Based Sensorless Speed Control of a Permanent Magnet Synchronous Motor Drive Using Extended Kalman Filter , 2001 .

[3] Roberto Oboe,et al. Sensorless full-digital PMSM drive with EKF estimation of speed and rotor position , 1999, IEEE Trans. Ind. Electron..

[4] G. Henneberger,et al. Position controlled permanent excited synchronous motor without mechanical sensors , 2002 .

[5] Frédéric Bonvin. Analyse et mise en oeuvre de méthodes de commande sans capteur pour moteurs synchrones à aimants permanents , 2001 .

[6] Silverio Bolognani,et al. Extended-range PMSM sensorless speed drive based on stochastic filtering , 2001 .

[7] Yoon-Ho Kim,et al. High performance IPMSM drives without rotational position sensors using reduced-order EKF , 1999 .

[8] Ned Mohan,et al. Design and implementation of an extended Kalman filter for the state estimation of a permanent magnet synchronous motor , 1991 .