Nonlinear torsional vibration characteristics of PMSM for HEV considering electromagnetic excitation

Xing Chen; Jibin Hu; Zengxiong Peng; Kai Chen

doi:10.3233/JAE-140192

Nonlinear torsional vibration characteristics of PMSM for HEV considering electromagnetic excitation

Xing Chen, Jibin Hu^*, Zengxiong Peng, Kai Chen

^*Corresponding author for this work

School of Mechanical Engineering

Beijing Institute of Technology

Research output: Contribution to journal › Article › peer-review

15 Citations (Scopus)

Abstract

Permanent magnet synchronous motor is an electromechanical coupled system. Electromagnetic field can result in change of the dynamic behaviors of the PMSM's rotor system. Here, changes to the electromagnetic torque excitation caused by the torsional displacement are considered using electromechanical coupled dynamic equations for the rotor. Steady state solutions and their stability are determined. Effects of inner power factor angle, pole pairs, saturation coefficient and torsional stiffness of shaft are investigated. Also, numerical integration is used to validate and carry out perturbation results. Based on the results, amplitude jump and bifurcation instability phenomenon can be avoided through reasonable control of permanent magnet synchronous motors, electromagnetic and mechanical parameters design and consequently control the torsional vibration of PMSM's rotor system.

Original language	English
Pages (from-to)	9-21
Number of pages	13
Journal	International Journal of Applied Electromagnetics and Mechanics
Volume	49
Issue number	1
DOIs	https://doi.org/10.3233/JAE-140192
Publication status	Published - 24 Sept 2015

Keywords

Electromechanical coupling
PMSM
multiple scales method
stability
torsional vibration

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abstract = "Permanent magnet synchronous motor is an electromechanical coupled system. Electromagnetic field can result in change of the dynamic behaviors of the PMSM's rotor system. Here, changes to the electromagnetic torque excitation caused by the torsional displacement are considered using electromechanical coupled dynamic equations for the rotor. Steady state solutions and their stability are determined. Effects of inner power factor angle, pole pairs, saturation coefficient and torsional stiffness of shaft are investigated. Also, numerical integration is used to validate and carry out perturbation results. Based on the results, amplitude jump and bifurcation instability phenomenon can be avoided through reasonable control of permanent magnet synchronous motors, electromagnetic and mechanical parameters design and consequently control the torsional vibration of PMSM's rotor system.",

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T1 - Nonlinear torsional vibration characteristics of PMSM for HEV considering electromagnetic excitation

AU - Chen, Xing

AU - Hu, Jibin

AU - Peng, Zengxiong

AU - Chen, Kai

PY - 2015/9/24

Y1 - 2015/9/24

N2 - Permanent magnet synchronous motor is an electromechanical coupled system. Electromagnetic field can result in change of the dynamic behaviors of the PMSM's rotor system. Here, changes to the electromagnetic torque excitation caused by the torsional displacement are considered using electromechanical coupled dynamic equations for the rotor. Steady state solutions and their stability are determined. Effects of inner power factor angle, pole pairs, saturation coefficient and torsional stiffness of shaft are investigated. Also, numerical integration is used to validate and carry out perturbation results. Based on the results, amplitude jump and bifurcation instability phenomenon can be avoided through reasonable control of permanent magnet synchronous motors, electromagnetic and mechanical parameters design and consequently control the torsional vibration of PMSM's rotor system.

AB - Permanent magnet synchronous motor is an electromechanical coupled system. Electromagnetic field can result in change of the dynamic behaviors of the PMSM's rotor system. Here, changes to the electromagnetic torque excitation caused by the torsional displacement are considered using electromechanical coupled dynamic equations for the rotor. Steady state solutions and their stability are determined. Effects of inner power factor angle, pole pairs, saturation coefficient and torsional stiffness of shaft are investigated. Also, numerical integration is used to validate and carry out perturbation results. Based on the results, amplitude jump and bifurcation instability phenomenon can be avoided through reasonable control of permanent magnet synchronous motors, electromagnetic and mechanical parameters design and consequently control the torsional vibration of PMSM's rotor system.

KW - Electromechanical coupling

KW - PMSM

KW - multiple scales method

KW - stability

KW - torsional vibration

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Nonlinear torsional vibration characteristics of PMSM for HEV considering electromagnetic excitation

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