Co-simulation study on BLDC motor drive system based on multisim and LabVIEW

Cahin, Murat; Bülbül, Halil İbrahim; Esen, Zafer; Yavanoğlu, Uraz; Çolak, İlhami

doi:10.1109/powereng.2013.6635757

Cited by 7 publications

(2 citation statements)

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“…the finite element model of machine, the power inverter circuit and the controller (Quintal-Palomo et al , 2019; Di Leonardo et al , 2019; Basnet and Pillay, 2020). Interface is required for the data exchange between these components, which are generally implemented by different software (Çahin et al , 2013; Eldeeb, 2019; Munteanu, 2020). It is relatively complicated for current tools to realize advanced functions, such as optimizing the control parameters.…”

Section: Introductionmentioning

confidence: 99%

Finite element method based co-simulation platform for the numerical analysis of motor drive system

Zhang

Huang

Shao

et al. 2022

COMPEL

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Purpose This study aims to develop a finite element method based co-simulation platform for the numerical analysis of motor drive system. With the rising requirement of industry, the comprehensive design of motor drive systems has attracted increasing attentions. An accurate model, which considers the coupling between motor and its drive system, is vital for the analysis and design of motor drive system. Design/methodology/approach Considering the coupling relationship between motor and its drive system, a flexible and extensible co-simulation platform of motor drive system is developed with the C++ language and finite element machine model to carry out the comprehensive analysis of motor drive system. The control system simulation program developed with C++ language adopts the same discrete form as the single-chip microcomputer and can simulate the interrupt mechanism, making the simulation closer to the actual control system. With the finite element analysis results of current step, the winding input voltage of next step is calculated by the executable program of control system and is fed into the finite element analysis, forming the two-way coupling analysis of drive system. Findings Preliminary studies, such as calculation of machine core losses fed by inverters, and control parameters optimization, are conducted with this platform, which shows the flexibility and expansibility of this platform. Originality/value The power inverter circuit along with the controller is modeled using the C++ language, and embedded into the finite element machine model to achieve more realistic motor drive system simulation and complex functions.

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Section: Introductionmentioning

confidence: 99%

Finite element method based co-simulation platform for the numerical analysis of motor drive system

Zhang

Huang

Shao

et al. 2022

COMPEL

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“…It offers a relatively new technique to deal with electronic simulations, i.e. co-simulation [37,38]. This application basically consists of transforming the circuit into differential equations and solving it by numerical methods 6 (Euler, or Runge-Kutta).…”

Section: Simulationmentioning

confidence: 99%

Synchronization and resonance effects in nonlinear electronic circuits : with neuroscience applications

Vellisca¹,

Alberto²

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Pues bien, a través de esta tesis doctoral el autor acerca aquellos gigantes a una distancia donde más bien parecen de nuestra estatura. En particular, mostrando un pequeño pedazo de un gigantesco campo como es la neurociencia, y cómoéste puede ser modificado simplemente con un "clic" que, como en la vida, marca la diferencia. Velli y MacaAbril 2017."Where there is a will there is a way". Old English Proverb"Shoot for the moon. Even if you miss, you'll land among the stars." Norman Vicent Peale"Life is like riding a bicycle. To keep your balance, you must keep moving."

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