Enhanced Fractional Order Sliding Mode Approach for Maximum Power Tracking of Five-phase PMSG based WECS
| Autor: | Salah Eddine Rhaili et. al. |
|---|---|
| Rok vydání: | 2021 |
| Předmět: |
Lyapunov function
Maximum power principle Computer science General Mathematics PID controller Permanent magnet synchronous generator Education Computational Mathematics symbols.namesake Nonlinear system Electric power system Computational Theory and Mathematics Robustness (computer science) Control theory symbols |
| Zdroj: | Turkish Journal of Computer and Mathematics Education (TURCOMAT). 12:918-929 |
| ISSN: | 1309-4653 |
| Popis: | Variable structure strategies have shown an efficient performance in controlling nonlinear electrical power systems by reason of its strength to handle perfectly the unmodeled system dynamics. In this study, with the exponent reaching law, a robust enhancement method of sliding mode controller (SMC) based on a nonlinear fractional order sliding surface that consists of both fractional differentiation and integration is proposed and applied to control a high-power multiphase permanent magnet synchronous generator based direct-driven Wind Energy Conversion System (WECS), in order to improve the energy efficiency and reduce the produced chattering phenomenon of conventional SMC . Moreover, a new smooth and derivable nonlinear switching control function is applied to replace the traditional non-derivable nonlinear control law, to improve dynamic performance, static performance, and robustness of the system. The proposed strategy stability is investigated under Lyapunov theory. A comparative simulation of the new proposed approach with the conventional SMC and PI controller display the excellent performance, stability and high robustness of FOSMC, by improving the system efficiency up to 98.66%, compared to conventional SMC with 91,14%, while the PI control achieves 86, 2%. |
| Databáze: | OpenAIRE |
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