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Nonlinear Adaptive Harmonics Vibration Control for Active Magnetic Bearing System With Rotor Unbalance and Sensor Runout

Huijuan Zhang, Jianjuan Liu, Ruipu Zhu, Hongmei Chen, Hang Yuan

2021IEEE Sensors Journal24 citationsDOI

Abstract

Rotor unbalance (RUB) and Sensor Runout (SR) are two main vibration sources for active magnetic bearing (AMB) system, and they not only produce considerable harmonic vibration but also endanger the stability of AMB system. Therefore, a nonlinear adaptive algorithm, whose asymptotic stability is guaranteed by Lyapunov's theory, is proposed in this paper to suppress the harmonic vibration. Nevertheless, RUB and the synchronous component of SR have the same frequency with the rotational frequency, and it is highly necessary to distinguish them from each other for the compensation of displacement stiffness force. Hence, the scheme of changing rotor speed is adopted for the permanent magnet biased magnetic bearing system. As a consequence, the harmonic current caused by RUB and SR is effectively attenuated and the displacement stiffness force is correctly compensated. The results of the numerical simulations and experiments demonstrate that the harmonic vibration is dramatically suppressed through the proposed method.

Topics & Concepts

Magnetic bearingControl theory (sociology)VibrationHarmonicsRotor (electric)HarmonicNonlinear systemDisplacement (psychology)Bearing (navigation)StiffnessCompensation (psychology)Helicopter rotorMagnetHarmonic analysisVibration controlEngineeringPhysicsAcousticsComputer scienceStructural engineeringElectronic engineeringVoltageMechanical engineeringControl (management)Artificial intelligenceAstronomyPsychologyPsychotherapistPsychoanalysisElectrical engineeringQuantum mechanicsMagnetic Bearings and Levitation DynamicsTribology and Lubrication Engineering
Nonlinear Adaptive Harmonics Vibration Control for Active Magnetic Bearing System With Rotor Unbalance and Sensor Runout | Litcius