A Composite Algorithm for Permanent Magnet Linear Synchronous Motor with Rapidly Varying Loads: Using Finite-time Tracking and Observer
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Author(s)
Niu, X
Zhang, C
Qu, Y
Li, M
Wang, T
Wang, X
Li, Z
Zhang, Y
Li, H
Griffith University Author(s)
Year published
2021
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The permanent magnet linear synchronous motor (PMLSM) is a promising motor to drive cordless elevator, computer numerical control machines due to its high force density and zero transmission. In the presence of rapidly varying loads, however, the conventional control methods of PMLSM cannot guarantee the precise-velocity and high-dynamic operation. In this work, a large signal stabilization scheme, which comprises high order slide mode (HOSM) observer and a finite-time controller (FTC), is proposed. Firstly, a finite-time observer is introduced to accurately observe the varying loads in finite time. Secondly, the FTC exactly ...
View more >The permanent magnet linear synchronous motor (PMLSM) is a promising motor to drive cordless elevator, computer numerical control machines due to its high force density and zero transmission. In the presence of rapidly varying loads, however, the conventional control methods of PMLSM cannot guarantee the precise-velocity and high-dynamic operation. In this work, a large signal stabilization scheme, which comprises high order slide mode (HOSM) observer and a finite-time controller (FTC), is proposed. Firstly, a finite-time observer is introduced to accurately observe the varying loads in finite time. Secondly, the FTC exactly offsets the estimated values and stabilizes all system states at their designated points in finite time. Finally, numerical simulation results show that the proposed controller provides a stronger adaptability and better performance in precision and speed to rapidly varying loads than the traditional PI controller.
View less >
View more >The permanent magnet linear synchronous motor (PMLSM) is a promising motor to drive cordless elevator, computer numerical control machines due to its high force density and zero transmission. In the presence of rapidly varying loads, however, the conventional control methods of PMLSM cannot guarantee the precise-velocity and high-dynamic operation. In this work, a large signal stabilization scheme, which comprises high order slide mode (HOSM) observer and a finite-time controller (FTC), is proposed. Firstly, a finite-time observer is introduced to accurately observe the varying loads in finite time. Secondly, the FTC exactly offsets the estimated values and stabilizes all system states at their designated points in finite time. Finally, numerical simulation results show that the proposed controller provides a stronger adaptability and better performance in precision and speed to rapidly varying loads than the traditional PI controller.
View less >
Conference Title
2021 13th International Symposium on Linear Drives for Industry Applications, LDIA 2021
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Subject
Mechanical engineering
Nanotechnology