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Optimal Design of Fractional Order Vector Controller Using Hardware-in-Loop (HIL) and Opal RT for Wind Energy System

Shivaji Karad, Ritula Thakur, Majed A. Alotaibi, Mohammad Junaid Khan, Hasmat Malik, Fausto Pedro Garcı́a Márquez, Mohammad Asef Hossaini

2024IEEE Access15 citationsDOIOpen Access PDF

Abstract

In this paper, a fractional order active (P) and reactive (Q) power controller of doubly fed induction generator (DFIG) is developed and it performance is demonstrated using hardware in loop (HIL) testing with Opal RT OP4510 real-time platform. The DFIG in this paper is modelled using real-time State Space Nodal (SSN) based solver. The Rotor Side Converter (RSC) and doubly fed induction machine are implemented using Opal-RT’s ARTEMiS – nodal admittance-based SSN solver which uses smaller time steps than the conventional algorithms to facilitate real-time hardware-in-loop performance analysis of the system. The MATLAB-based FOMCON platform is utilized for designing the proposed fractional order controller. The proposed controller is developed and tested for various dynamic conditions. The performance of conventional proportional integral control and proposed fractional order control using Opal-RT’s OP4510 real-time platform is compared. The experimental results demonstrate improved efficiency with the use of proposed fractional order controller.

Topics & Concepts

Hardware-in-the-loop simulationLoop (graph theory)Computer scienceController (irrigation)Wind powerOrder (exchange)Energy (signal processing)Control theory (sociology)Computer hardwareEmbedded systemEngineeringControl (management)Artificial intelligenceElectrical engineeringMathematicsAgronomyFinanceCombinatoricsStatisticsEconomicsBiologyReal-time simulation and control systemsWind Turbine Control SystemsAdvanced DC-DC Converters
Optimal Design of Fractional Order Vector Controller Using Hardware-in-Loop (HIL) and Opal RT for Wind Energy System | Litcius