A novel model‐predictive direct control for induction motor drives

Yang, Xiaoliang; Liu, Guorong; Le, Van Dai; Le, Cao Quyen

doi:10.1002/tee.22992

Cited by 10 publications

(2 citation statements)

References 33 publications

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“…S , as given in Figure 1a. This inverter type has been used for industrial applications, including motor drives [2], wind power systems [3,4], and solar systems [5,6]. However, in practical applications, reducing inverter size and cost must be considered.…”

Section: S -6mentioning

confidence: 99%

Modelling and Simulation of Three-Phase Four-Switch Voltage Source Inverter With Space Vector Modulation

DUY¹

2022

jst-iuh

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The three-phase six-switches voltage source inverter is usually used for industrial motor control and renewable energy systems. However, in order to decrease to size and cost of the drive systems, the three-phase four-switch voltage source inverter has been applied to low-cost motor control and renewable energy system. The fundamental concepts and principles of the three-phase four-switch voltage source inverter are discussed. The mathematical model and space vector modulation of the three-phase four-switch voltage source inverter are proposed. The work is demonstrated by simulation results.

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Section: S -6mentioning

confidence: 99%

Modelling and Simulation of Three-Phase Four-Switch Voltage Source Inverter With Space Vector Modulation

DUY¹

2022

jst-iuh

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“…Throughout the decades, numerous unique control strategies have been proposed to replace the standard control strategy in order to improve accuracy and precision performance. Backstepping control [8,9], intelligent control [10,11], model predictive control [12,13], and sliding mode control [14,15] are all examples of these controllers.…”

Section: Introductionmentioning

confidence: 99%

FPGA in the Loop Implementation for Observer Sliding Mode Control of DFIG-Generators for Wind Turbines

et al. 2021

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This paper presents a new contribution of the nonlinear control technique of electrical energy in a wind energy system. The nonlinear sliding mode technique used to control the powers of the DFIG-Generator is connected to the power grid by two converters (grid side and machine side). The proposed model is validated using tracking and robustness tests with a real wind speed. The control was developed under Matlab/Simulink, and the FPGA in the Loop technique was used to design the DFIG model. By employing a co-simulation, the purpose is to test the controller for the FPGA simulated model or system in its entirety. The results obtained by the cο-simulation show the efficiency of the proposed model in terms of speed and robustness with a rate THD = 0.95, and the proposed model of the sliding mode controller shows a significant improvement in the quality of energy produced by the wind system.

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Model Predictive Control for Induction Motor Fed by 5-Level Cascaded H-Bridge Inverter

Abobaker

Nordin

Azli

et al. 2022

Lecture Notes in Electrical Engineering

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A novel model‐predictive direct control for induction motor drives

Cited by 10 publications

References 33 publications

Modelling and Simulation of Three-Phase Four-Switch Voltage Source Inverter With Space Vector Modulation

Modelling and Simulation of Three-Phase Four-Switch Voltage Source Inverter With Space Vector Modulation

FPGA in the Loop Implementation for Observer Sliding Mode Control of DFIG-Generators for Wind Turbines

Model Predictive Control for Induction Motor Fed by 5-Level Cascaded H-Bridge Inverter

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