Linear Synchronous Motor Propulsion of Small Transit Vehicles

Thornton, R.D.; Clark, Tracy; Perreault, B.M.

doi:10.1115/rtd2004-66020

Cited by 11 publications

(4 citation statements)

References 1 publication

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“…The primary part generates traveling magnetic fields by input current across the air-gap and induce Electromotive Force (EMF) in the secondary part of a conducting sheet (reactive rail). The Japanese Maglev HTSS is utilized by LIM [16]. The second one is Linear Synchronous Motor (LSM).…”

Section: A Propulsion Systemmentioning

confidence: 99%

Genetic Algorithm Tuned Super Twisting Sliding Mode Controller for Suspension of Maglev Train With Flexible Track

Teklu

Abdissa

2023

IEEE Access

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The suspension air-gap of Maglev train needs controller for it is inherently unstable and highly nonlinear. To maintain a high quality of ride, comfort and safety for the passengers the train suspension controller must maintain the suspension air-gap. During operation the suspension air-gap of a Maglev train is only in millimeters. This easily causes instability under excitation of nonlinear load and track tiny deformation. Additionally, a track with a low stiffness will experience larger bending displacement and result in high vibrations. A high stiffness track experience minor bending displacement, which will diminish the vibration and improve riding quality. Unfortunately, using high stiffness guideway track is expensive. Instead, by designing a good controller the low stiffness material can be used. In this paper genetic algorithm tuned super twisting sliding mode control is proposed for it offers a good controlling ability since it is insensitive to external disturbance, parameter variation and has a fast dynamic response. The proposed controllers are tested under different circumstances, i.e., Maglev train with rigid track and with flexible track under variable load and external random disturbance.INDEX TERMS Flexible track, genetic algorithm, Maglev train, sliding mode control, super twisting sliding mode control and suspension air-gap.

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Section: A Propulsion Systemmentioning

confidence: 99%

Genetic Algorithm Tuned Super Twisting Sliding Mode Controller for Suspension of Maglev Train With Flexible Track

Teklu

Abdissa

2023

IEEE Access

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“…Conventional control methods for linear motors are faced with challenges because of the existence of system parameter perturbation, edge effect, etc. [2]. New advanced control schemes were proposed for disturbance reduction.…”

Section: Introductionmentioning

confidence: 99%

Nonlinear Robust Control Algorithm for PM Linear Synchronous Motors Based on Model Quasi Linearization

Zhang

Pan

2006

Electric Power Components and Systems

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A new nonlinear robust control scheme of permanent magnet linear synchronous motors (PMLSM) is proposed in this article. A quasi-linearized and decoupled model with uncertainties is derived by the mathematical model of PMLSM according to its characteristic. A fixed-boundary sliding mode controller using the msat function is designed to guarantee the robustness and remove the chattering that usually exists in normal sliding mode control. Design of a force observer is given to estimate the load force unknown in the new model. The validity of the proposed algorithm compared with the conventional PID control scheme is proved by MATLAB simulation resultsand DSP-based experimental results.

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“…The U-shaped guideway structure enhances safety, as derailments are highly unlikely [13]. Additionally, the absence of traditional rotary engine components leads to a lighter vehicle with a reduced cross-sectional area, contributing to a more compact design and increased energy efficiency [14,15]. The calculation of magnetic forces in a Maglev system has peculiarities from a linear machine [16].…”

Section: Introductionmentioning

confidence: 99%

Electrical Circuits Simulator in Null-Flux Electrodynamic Suspension Analysis

Franca

Zhu

et al. 2023

Applied Sciences

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This paper employed an electrical circuit simulator to investigate an electrodynamic suspension system (EDS) for passenger rail transport applications. Focusing on a null-flux suspension system utilizing figure-eight-shaped coils (8-shaped coils), the aim was to characterize the three primary electromagnetic forces generated in an EDS and to compare the findings with existing literature. The dynamic circuit theory (DCT) approach was utilized to model the system as an electrical circuit with lumped parameters, and mutual inductance values between the superconducting (SC) coil and the upper and lower loops of the 8-shaped coil were calculated and inputted into the simulator. The results were compared with experimental data obtained from the Yamanashi test track. The comparison demonstrated close alignment between the theoretical expectations and the obtained experimental curves, validating the accuracy of the proposed model. The study highlights the advantages of this new approach, including faster computation times and efficient implementation of modifications. Overall, this work contributes to the ongoing development and optimization of null-flux suspension Maglev systems.

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Linear Synchronous Motor Propulsion of Small Transit Vehicles

Cited by 11 publications

References 1 publication

Genetic Algorithm Tuned Super Twisting Sliding Mode Controller for Suspension of Maglev Train With Flexible Track

Genetic Algorithm Tuned Super Twisting Sliding Mode Controller for Suspension of Maglev Train With Flexible Track

Nonlinear Robust Control Algorithm for PM Linear Synchronous Motors Based on Model Quasi Linearization

Electrical Circuits Simulator in Null-Flux Electrodynamic Suspension Analysis

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