Nonlinear Control of an Active Magnetic Bearing with Output Constraint

Nguyen, Danh Huy; Nguyễn, Tùng Lâm; Nguyen, Manh Linh; Nguyen, Huy H.

doi:10.11591/ijece.v8i5.pp3666-3677

Cited by 5 publications

(5 citation statements)

References 9 publications

(10 reference statements)

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“…It has been examined here in the middle for the sake of simplicity. For example, if the short−circuit appears at the terminal of the generator, V s will be replaced by zero in the dynamics (1)- (10). In this case, the machine's speed increases, with respect to the dynamic (17), as long as the short−circuit is present and depending on its duration (denoted ∆t) the machine may lose synchronism.ω…”

Section: Smib Model In Faulty Mode Operationmentioning

confidence: 99%

“…On the other hand, the approaches in the second class use some so-called advanced control strategies to enhance the transient stability of the power machines. There are several examples in the literature for this category which include sliding mode control [8], fuzzy control [9], nonlinear control [10], dynamic inversion control [11] and optimal control [12], etc.…”

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confidence: 99%

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Observer-based tracking control for single machine infinite bus system via flatness theory

Aghababa

Marinescu

Xavier³

2021

IJECE

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In this research, we aim to use the flatness control theory to develop a useful control scheme for a single machine connected to an infinite bus (SMIB) system taking into account input magnitude and rate saturation constraints. We adopt a fourth-order nonlinear SMIB model along an exciter and a turbine governor as actuators. According to the flatness-based control strategy, first we show that the adopted nominal SMIB model is a flat system. Then, we develop a full linearizing state feedback as well as an outer integral-type loop to ensure suitable tracking performances for the power and voltage as well as the angular velocity outputs. We assume that only the angular velocity of the generator is available to be measured. So, we provide a linear Luenberger observer to estimate the remaining states of the system. Also, the saturation nonlinearities are transferred to the linear part of the system and they are canceled out using their estimations. The efficiency and usefulness of the proposed observer-controller against faults are illustrated using simulation tests in Eurostag and Matlab. The results show that the clearing critical time of the introduced methodology is larger than the classical control approaches and the proposed observer-based flatness controller exhibits over much less control energy compared to the classic IEEE controllers.

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Section: Smib Model In Faulty Mode Operationmentioning

confidence: 99%

mentioning

confidence: 99%

Observer-based tracking control for single machine infinite bus system via flatness theory

Aghababa

Marinescu

Xavier³

2021

IJECE

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“…where 1 and 2 are positive constants. The Lyapunov function's derivative is negative [24], so in this time, we say that global stability is according and it can control the position to be progressive stability by the control . After the simulation is done, it becomes clear that we need to add integration, the control became:…”

Section: High-level Position Controlmentioning

confidence: 99%

Geometric control of quadrotor UAVs using integral backstepping

Bouchaib

Taleb

Massoum

et al. 2021

IJEECS

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The traditional quadcopter control systems should deal with two common problems. Namely, the singularities related to the inverse kinematics and the ambiguity linked to the quaternion representation of the dynamic model. Moreover, the stability problem due to the system nonlinearity and high degree of coupling. This paper provides a solution to the two issues by employing a geometrical integral-backstepping control system. The integral terms were added to improve system ability to track desired trajectories. The high-level control laws are considered as a virtual control and transmitted to the low-level to track the high-level commands. The proposed control system along with the quadcopter dynamic model were expressed in the special Euclidean group SE(3). Finally, the control system robustness against mismatching parameters was studied while tracking various paths.

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“…The experimental findings are reported, with a rotor speed range of 5000 to 12000 rpm and a placement error of less than 0.2 mm. Nguyen et al introduced a control approach considering input and output constraints in the magnetic bearing system in [16] and [17]. The control restricts the rotor displacement in a certain range according to the system structure.…”

Section: Introductionmentioning

confidence: 99%

Active disturbance rejection control-based anti-coupling method for conical magnetic bearings

Nguyen

Trong

et al. 2022

Acta Polytech

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Conical-shape magnetic bearings are currently a potential candidate for various magnetic force-supported applications due to their unique geometric nature reducing the number of required active magnets. However, the bearing structure places control-engineering related problems in view of underactuated and coupling phenomena. The paper proposes an Adaptive Disturbance Rejection Control (ADRC) for solving the above-mentioned problem in the conical magnetic bearing. At first, virtual current controls are identified to decouple the electrical sub-system, then the active disturbance rejection control is employed to eliminate coupling effects owing to rotational motions. Comprehensive simulations are provided to illustrate the control ability.

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Nonlinear Control of an Active Magnetic Bearing with Output Constraint

Cited by 5 publications

References 9 publications

Observer-based tracking control for single machine infinite bus system via flatness theory

Observer-based tracking control for single machine infinite bus system via flatness theory

Geometric control of quadrotor UAVs using integral backstepping

Active disturbance rejection control-based anti-coupling method for conical magnetic bearings

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