Autor: |
Cureño-Osornio, Jonathan, Alvarez-Ugalde, Carlos A., Zamudio-Ramirez, Israel, Osornio-Rios, Roque A., Dunai, Larisa, Turcanu, Dinu, Antonino-Daviu, Jose A. |
Předmět: |
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Zdroj: |
Electronics (2079-9292); Oct2024, Vol. 13 Issue 19, p3850, 16p |
Abstrakt: |
Induction motors are widely used machines in a variety of applications as primary components for generating rotary motion. This is mainly due to their high efficiency, robustness, and ease of control. Despite their high robustness, these machines can experience failures throughout their lifespan due to various mechanical, electrical, and environmental factors. To prevent irreversible failures and all the implications and costs associated with breakdowns, various methodologies have been developed over the years. Many of these methodologies have focused on analyzing various physical quantities, either during start-up transients or during steady-state operations. This involves the use of specific techniques depending on the focus of the methodology (start-up transients or steady-state) to obtain optimal results. In this regard, it is of great importance to develop methods capable of separating and detecting the start-up transient of the motor from the steady state. This will enable the development of automatic diagnostic methodologies focused on the specific operating state of the motor. This paper proposes a methodology for the automatic detection of start-up transients in induction motors by using magnetic stray flux signals and processing by means of statistical indicators in time-sliding windows, the calculation of variances with a proposed method, and obtaining optimal values for the design parameters by using a Particle Swarm Optimization (PSO). The results obtained demonstrate the effectiveness of the proposed method for the start-up and steady-state regimes automatic separation, which is validated on a 0.746 kW induction motor supplied by a variable frequency drive (VFD). [ABSTRACT FROM AUTHOR] |
Databáze: |
Complementary Index |
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