Title :
Development of LSM control system for super speed maglev
Author :
Jinho Lee ; Jeongmin Jo ; Youngjae Han ; Changyoung Lee
Author_Institution :
Super Speed Maglev Train Res. Team, Korea Railroad Res. Inst., Uiwang, South Korea
Abstract :
As a propulsion device for super speed maglev with 500km/h level, the powerful linear synchronous motor(LSM) is necessary. To control the LSM, the precise position data of high speed running maglev should be detected and transmitted to the inverter controller which provides the synchronized current to the LSM stator attached on the guideway. And to minimize the power input to the stator, the whole guideway is devided into several sections and the power is supplied to the only one section which the train is running on. In this case, precise section change control is needed to mitigate the vibration and noise. In this study, first, the infinite loop type LSM and section control testbed is developed. Then, LSM and section control algorithms are applied to the testbed and the feasibility of derived control techniques are verified through the experiments.
Keywords :
control systems; invertors; linear synchronous motors; magnetic levitation; stators; LSM control system; LSM stator; infinite loop type LSM; inverter controller; powerful linear synchronous motor; precise position data; precise section change control; propulsion device; section control algorithms; super speed maglev; Air gaps; Artificial intelligence; Magnetic levitation; Linear Synchronous Motor; Maglev Train; Propulsion Control; Section Control;
Conference_Titel :
Control, Automation and Systems (ICCAS), 2013 13th International Conference on
Conference_Location :
Gwangju
Print_ISBN :
978-89-93215-05-2
DOI :
10.1109/ICCAS.2013.6703976
