Model-Based Predictive Current Control Method with Constant Switching Frequency for Single-Phase Voltage Source Inverters

Roh, Chan; Kwak, Sangshin

doi:10.3390/en10111927

Cited by 8 publications

(4 citation statements)

References 25 publications

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“…The abovementioned MPC optimizes the pre-defined cost function of the system based on the system model and constraints [32,33]. Among each sampling instant, when the optimization is settled, the controller will apply just the primary component of the succession utilizing the new estimated information and obtaining another sequence of the optimal actuation each time.…”

Section: Controllers Advantages Disadvantagesmentioning

confidence: 99%

Power Loss Analysis of Solar Photovoltaic Integrated Model Predictive Control Based On-Grid Inverter

et al. 2020

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This paper presents a finite control-set model predictive control (FCS-MPC) based technique to reduce the switching loss and frequency of the on-grid PV inverter by incorporating a switching frequency term in the cost function of the model predictive control (MPC). In the proposed MPC, the control objectives (current and switching frequency) select an optimal switching state for the inverter by minimizing a predefined cost function. The two control objectives are combined with a weighting factor. A trade-off between the switching frequency (average) and total harmonic distortion (THD) of the current was utilized to determine the value of the weighting factor. The switching, conduction, and harmonic losses were determined at the selected value of the weighting factor for both the proposed and conventional FCS-MPC and compared. The system was simulated in MATLAB/Simulink, and a small-scale hardware prototype was built to realize the system and verify the proposal. Considering only 0.25% more current THD, the switching frequency and loss per phase were reduced by 20.62% and 19.78%, respectively. The instantaneous overall power loss was also reduced by 2% due to the addition of a switching frequency term in the cost function which ensures a satisfactory empirical result for an on-grid PV inverter.

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Section: Controllers Advantages Disadvantagesmentioning

confidence: 99%

Power Loss Analysis of Solar Photovoltaic Integrated Model Predictive Control Based On-Grid Inverter

et al. 2020

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“…A amplitude da corrente de referênciaé definida pela malha de controle de tensão do barramento. O controlador preditivo foi escolhido em virtude da sua rápida convergência e eficácia para sintetizar correntes com referência senoidal de alta frequência, permitindo também eliminar o erro de estado estacionário se corretamente modelado (Chan and Kwak, 2017). Outra vantagem desse controladoré a facilidade de implementação em sistemas microprocessados, além de frequência de comutação fixa, devidò a portadora triangular utilizada na modulação (Barbosa et al, 2017).…”

Section: Controle Preditivo De Correnteunclassified

Controle Preditivo do Conversor do Estágio Receptor de um Sistema de Transferência Indutiva de Potência

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Valle

Barbosa

2020

Anais Do Congresso Brasileiro De Automática 2020

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Neste trabalho é apresentado um estudo com o uso de um controlador preditivo para controle de corrente de um conversor elevador pré-regulador de fator de potência para aplicação no lado receptor (ou secundáario) de sistemas de transferência indutiva potência. Para isso, são apresentadas as equações do controlador, simulações digitais e resultados experimentais que descrevem o funcionamento do sistema em enfoque.

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“…A disadvantage of this method, however, is its large computational burden to determine the new system state for each of the possible steering actions. Furthermore, this control method leads to a variable switching frequency f switch , making filter design more complicated [8]. A second predictive control strategy that is considered in this paper is called deadbeat (DB) control [9][10][11].…”

Section: Introductionmentioning

confidence: 99%

Performance Degradation of Surface PMSMs with Demagnetization Defect under Predictive Current Control

et al. 2019

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To control the current of a surface mounted permanent magnet synchronous machine fed by a two-level voltage source inverter, a large variety of control algorithms exists. Each of these controllers performs differently concerning dynamic performance and control- and voltage quality, but also concerning sensitivity to demagnetization faults. Therefore, this paper investigates the performance degradation of three advanced predictive controllers under a partial demagnetization fault. The three predictive controllers are: finite-set model based predictive control, deadbeat control, and a combination of both previous algorithms. To achieve this goal, the three predictive controllers are first compared under healthy conditions, and afterwards under a partial demagnetization fault. A PI controller is added to the comparison in order to provide a model-independent benchmark. Key performance indicators, obtained from both simulations and experimental results on a 4 kW axial flux permanent magnet synchronous machine with yokeless and segmented armature topology, are introduced to enable a quantification of the performance degradation of the controllers under a demagnetization fault. A general conclusion is that the deadbeat controller shows superior control quality, even under partial demagnetization.

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Model-Based Predictive Current Control Method with Constant Switching Frequency for Single-Phase Voltage Source Inverters

Cited by 8 publications

References 25 publications

Power Loss Analysis of Solar Photovoltaic Integrated Model Predictive Control Based On-Grid Inverter

Power Loss Analysis of Solar Photovoltaic Integrated Model Predictive Control Based On-Grid Inverter

Controle Preditivo do Conversor do Estágio Receptor de um Sistema de Transferência Indutiva de Potência

Performance Degradation of Surface PMSMs with Demagnetization Defect under Predictive Current Control

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