Authors :
Jamal Mohammed Shehata; Majed Alshammari
Volume/Issue :
Volume 8 - 2023, Issue 2 - February
Google Scholar :
https://bit.ly/3TmGbDi
Scribd :
https://tinyurl.com/mshhnt2j
DOI :
https://doi.org/10.5281/zenodo.8126505
Abstract :
This paper's proposed (HMB) model is
dedicated and simulated to offer the transient condition.
This model involves two components. The first section
included mechanics and electrical circuits described by
ordinary differential equations (ODF). Regarding the
second section, several parameters are acquired from the
simulated model, including velocity-induced voltages,
magnetic forces, and dynamic inductances, which are
acquired from the analysis. Regarding the simulation
environment, MATLAB/Simulink environment was
employed to conduct the proposed simulation model
beside to desired control system. Then, the comparison
process between the suggested HMB prototype with time
responses was assisted in validating the proposed model
of the field circuit.
Keywords :
Hybrid Magnetic Bearing, Ordinary Differential Equations, MATLAB/Simulink Software, HMB Prototype, Field Circuit.
This paper's proposed (HMB) model is
dedicated and simulated to offer the transient condition.
This model involves two components. The first section
included mechanics and electrical circuits described by
ordinary differential equations (ODF). Regarding the
second section, several parameters are acquired from the
simulated model, including velocity-induced voltages,
magnetic forces, and dynamic inductances, which are
acquired from the analysis. Regarding the simulation
environment, MATLAB/Simulink environment was
employed to conduct the proposed simulation model
beside to desired control system. Then, the comparison
process between the suggested HMB prototype with time
responses was assisted in validating the proposed model
of the field circuit.
Keywords :
Hybrid Magnetic Bearing, Ordinary Differential Equations, MATLAB/Simulink Software, HMB Prototype, Field Circuit.
