Title :
Direct Flux Control of PM synchronous motor drives for traction applications
Author :
Pellegrino, Gianmario ; Boazzo, Barbara ; Jahns, Thomas M.
Author_Institution :
Politec. di Torino, Turino, Italy
Abstract :
Three Permanent Magnet traction motors are controlled via a unified Direct Flux Vector Control scheme. Two of the motors have the same stator with concentrated windings, one combined with a Surface Mounted PM rotor and the other with an Interior PM rotor. The third motor is a PM-assisted Synchronous Reluctance motor with distributed windings. The algorithm has a predictive nature and no regulators that need to be tuned. When switching from one motor to another, the set of motor parameters is changed and nothing else. The key parameters are the stator resistance and the dq flux linkage curves. Drive commissioning issues are addressed along with the effects of parameter errors on the control performance, and both are quite acceptable for traction applications. Experimental results are provided for all three motors.
Keywords :
machine vector control; permanent magnet motors; predictive control; reluctance motor drives; rotors; stators; torque control; traction; Interior PM rotor; PM synchronous motor drives; PM-assisted synchronous reluctance motor; concentrated windings; control performance; distributed windings; dq flux linkage curves; drive commissioning issues; motor parameters; parameter errors; permanent magnet traction motors; stator resistance; surface mounted PM rotor; traction applications; unified direct flux vector control scheme; Couplings; Inverters; Reluctance motors; Rotors; Torque; Traction motors; Deadbeat Control; Direct Flux Vector Control; Direct Torque Control; Permanent Magnet Machines; Permanent Magnet Motor Drives; Predictive Control;
Conference_Titel :
Transportation Electrification Conference and Expo (ITEC), 2014 IEEE
Conference_Location :
Dearborn, MI
DOI :
10.1109/ITEC.2014.6861836
