Sliding Mode Control for PMSG-based Wind Power System

Bellarbi, Samir; Saheb-Koussa, Djohra; Djoudi, Abdelhak

doi:10.1088/1742-6596/1081/1/012012

Cited by 5 publications

(3 citation statements)

References 5 publications

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“…The equivalent command is a continuous function that serves to maintain the variable to be controlled on the sliding surface S = 0 . It is obtained thanks to the conditions of invariance of the surface: S = 0 and  S = 0 [23,24].…”

Section: The Control Lawmentioning

confidence: 99%

Super-twisting Sliding Mode Control of a Doubly-fed Induction Generator Based on the SVM Strategy

Yaichi

Semmah

Wira

et al. 2019

Period. Polytech. Elec. Eng. Comp. Sci.

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This paper presents direct power control (DPC) strategies using the super-twisting sliding mode control (STSMC) applied to active and reactive power control of a doubly-fed induction generator (DFIG) supplied by a space vector modulation inverter for wind turbine system. Then, a control STSMC-DPC and SVM strategies are applied. The active and reactive powers that are generated by the DFIG will be decoupled by the orientation of the stator flux and controlled by super-twisting sliding mode control. Its simulated performance is then compared with conventional sliding mode control. The test of robustness of the controllers against machine parameters uncertainty will be tackled, and the simulations will be presented. Simulation results of the proposed controller (SMC-DPC) and (STSMC-DPC) scheme are compared for various step changes in the active and reactive power. This approach super-twisting sliding mode control is validated using the Matlab/Simulink software and the results of the simulation can prove the excellent performance of this control in terms of improving the quality of the energy supplied to the electricity grid.

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Section: The Control Lawmentioning

confidence: 99%

Super-twisting Sliding Mode Control of a Doubly-fed Induction Generator Based on the SVM Strategy

Yaichi

Semmah

Wira

et al. 2019

Period. Polytech. Elec. Eng. Comp. Sci.

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“…The study of a wind energy conversion system (WECS) based on Permanent Magnet Synchronous Generator by using an appropriate control is considered in many papers described [22][23][24][25][26][27]. Most previous systems have proposed testing the system via step variations of normal or high induction motor rotor speed only [28,29].…”

Section: Of 17mentioning

confidence: 99%

Performance Improvements of Induction Motor Drive Supplied by Hybrid Wind and Storage Generation System Based on Mine Blast Algorithm

Abdalla¹,

Abdullah²

2019

Energies

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This research investigates the performance improvements of induction motor (IM) drive supplied by a hybrid wind/battery storage system based on the optimal mine blast algorithm. This is done by using IM field-oriented speed control as an independent dynamic load and a battery as a storage power unit. To ensure the accuracy and quality of energy equilibrium in autonomous wind power systems, there is an urgent and necessary demand for battery storage units. So in principle, the overall system of the complete model is configured to be combined with an uncontrolled rectifier, a steady magnetic synchronous generator (PMSG), a buck converter, and a lead–acid battery (LAB) in addition to an induction motor. According to the imposed controller, the loads required power can be obtained effectively by the prescribed battery storage and the wind generation units. Considering the suggested vector control to adjust the induction motor velocity through a three-phase inverter, it will be obtained 220 V/50 Hz, which is the principal target of this research. Moreover, the system with the proposed optimal control is compared with the optimal control based on genetic algorithm (GA) and the classical PID control. It is, therefore, possible to conclude that the results of numerical calculations and simulations illustrate that the studied system has strong achievement and perfect predictor of the electric parameter waveforms.

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“…We know that the machine model is non-linear and strongly coupled between the rotor flux and the electromagnetic torque, which makes its control very difficult. Several control strategies have been proposed in the literature, [7][8][9][10][11][12][13][14]. In our case, the machine side converters control the dq component current by a conventional method based PI regulator, and then the load side converters control the DC bus voltage using sliding mode approach and the RMS voltage load.…”

Section: Introductionmentioning

confidence: 99%

Sliding Mode Control of Wind Energy Conversion System Using Dual Star Synchronous Machine and Three Level Converter

Berkani¹,

Negadi²,

Allaoui³

et al. 2019

IJES

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This paper investigates a dual star synchronous machine powered by two independent threelevel voltage source inverters integrated in a wind turbine system (Figure 1). The dual star synchronous machine is used in areas of high power industrial applications such as naval propulsion, traction systems and renewable energy. This use is motivated by several important advantages compared to classical three-phase machine. In this work, the machine side converters control the dq component current by a conventional method based PI regulator, and then the load side converters control the DC bus voltage using sliding mode approach and the RMS voltage load. The validity of the proposed control technique is verified by Matlab/Simulink. Simulation results presented in this paper confirm the validity and feasibility of the proposed control approach, and can be tested on experimental setup.

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Sliding Mode Control for PMSG-based Wind Power System

Cited by 5 publications

References 5 publications

Super-twisting Sliding Mode Control of a Doubly-fed Induction Generator Based on the SVM Strategy

Super-twisting Sliding Mode Control of a Doubly-fed Induction Generator Based on the SVM Strategy

Performance Improvements of Induction Motor Drive Supplied by Hybrid Wind and Storage Generation System Based on Mine Blast Algorithm

Sliding Mode Control of Wind Energy Conversion System Using Dual Star Synchronous Machine and Three Level Converter

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