Modelling, investigation, simulation, and PID current control of Active Magnetic Levitation FEM model

Piłat, Adam

doi:10.1109/mmar.2013.6669923

Cited by 7 publications

(5 citation statements)

References 8 publications

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“…They allow for the building of complex models and perform the identification stage [19] to expanding knowledge about system functioning, dynamics and cross coupling. Moreover, it is possible to apply such a tool to develop a completely functional virtual prototype, which consists of physical phenomena, motion dynamics and control methods.…”

Section: Discussionmentioning

confidence: 99%

Modelling of the Glass Melting Process for Real-Time Implementation

Grega¹,

Piłat²,

Tutaj³

2015

IJMO

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Abstract-Improvement of process efficiency and product quality is available through implementation of more complex control algorithms and more accurate process models. It is especially critical for the glass industry production chain since glass production is a complex processes with high energy usage. The accuracy and robustness of advanced control algorithms is strictly dependent on the quality of the underlying mathematical model of the production process. This paper presents the formalisation and an empirical investigation of the hypothesis that a simplified, Finite Element Method (FEM) -based model can capture the closed-loop process dynamics over longer time scales and is suitable for real-time applications. The paper demonstrates how a tradeoff between model complexity and simulation time can be found.

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Section: Discussionmentioning

confidence: 99%

Modelling of the Glass Melting Process for Real-Time Implementation

Grega¹,

Piłat²,

Tutaj³

2015

IJMO

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“…Magnetic field distribution inside the electric machine has been calculated by 2D [7,8] and 3D FEM [9]. An external electric circuit can include an inverter supply system [10], distorted voltage-excited sources [9] and even control loops [11]. Commercially available software such as Ansys Maxwell or Comsol allows for simulating transient states based on FC-FEM [11,12].…”

Section: Introductionmentioning

confidence: 99%

“…An external electric circuit can include an inverter supply system [10], distorted voltage-excited sources [9] and even control loops [11]. Commercially available software such as Ansys Maxwell or Comsol allows for simulating transient states based on FC-FEM [11,12]. Unfortunately, the calculation of transient states using FC-FEM takes a lot of CPU time, because magnetic field equations need to be solved at every simulation step of the circuit equations and torque/force balance equations.…”

Section: Introductionmentioning

confidence: 99%

Two Models for Time-Domain Simulation of Hybrid Magnetic Bearing’s Characteristics

Wajnert

Tomczuk

2022

Sensors

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A comparison of two developed simulation models for a hybrid magnetic bearing (HMB) transient states is presented. This applies to analyses using the flux-circuit directly coupled magnetic equivalent circuit and field-circuit indirectly coupled finite element analysis. The required control system was implemented for both models. The results obtained from the simulations were compared with those obtained from measurement tests.

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“…Modelling and identification problematics of the magnetic levitation process can be found e.g. in [9,10,[13][14][15][16][17][18][19][20][21]. Usually first principle model is derived, and the unknown parameters are estimated from experimental data.…”

Section: Introductionmentioning

confidence: 99%

Magnetic Levitation – Modelling, Identification and Open Loop Verification

Honc

Sanseverino

2020

TEE

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<p>The paper describes a procedure using the first principle modelling and experimental identification of the Magnetic Levitation Model CE 152. It is a modified version of the paper [1]. The difference is that the identification and verification is done in open loop and constraints logic is added in the current paper. The author optimized and simplified dynamic model to a minimum to what is needed to characterize given system for the simulation and control design purposes. Only few open-loop experiments are needed to estimate the unknown parameters. Model quality is verified in open loop where the real and simulated data are compared. The model can serve as a simulation model for some standard control algorithms or as a process model for advanced control method design.</p>

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Modelling, investigation, simulation, and PID current control of Active Magnetic Levitation FEM model

Cited by 7 publications

References 8 publications

Modelling of the Glass Melting Process for Real-Time Implementation

Modelling of the Glass Melting Process for Real-Time Implementation

Two Models for Time-Domain Simulation of Hybrid Magnetic Bearing’s Characteristics

Magnetic Levitation – Modelling, Identification and Open Loop Verification

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