Title :
Optimizing Operation of Segmented Stator Linear Synchronous Motors
Author :
Perreault, Brian M.
Author_Institution :
MagneMotion, Inc., Devens, MA, USA
Abstract :
Linear synchronous motors present both advantages and challenges when used to control vehicles on a guideway. It is often advantageous to split a stator into small segments and drive each segment independently, but this strategy introduces complications not found in single stator systems. Distinctions include stator back-electromotive force variation with vehicle position, vehicle thrust constant variation due to gaps between the stators, and the requirement to synchronize stators overlapped by a common field array. Strategies for compensating for these characteristics are presented, as implemented in both the low-level inverter current control loop and the high-level vehicle motion control loop. This paper also describes a method of optimizing the efficiency of segmented stator installations and an analysis of the appropriate stator segment length for an urban maglev application.
Keywords :
electric potential; linear synchronous motors; magnetic levitation; stators; vehicles; current control loop; electromotive force variation; linear synchronous motors; low-level inverter; optimizing operation; segmented stator installations; urban maglev; vehicle position; vehicle thrust constant variation; Control systems; Costs; Inverters; Magnetic analysis; Magnetic levitation; Manufacturing; Optimization methods; Stators; Synchronous motors; Vehicles; Linear motor; linear synchronous motor (LSM); magnetic levitation; motor drives; optimization; subblock switching;
Journal_Title :
Proceedings of the IEEE
DOI :
10.1109/JPROC.2009.2030234
