Optimal Performance Design Guideline of Hybrid Reference Frame Based Dual-Loop Control Strategy for Stand-Alone Single-Phase Inverters

Han, Yi; Jiang, Aiting; Coelho, E.A.A.; Guerrero, Josep M.

doi:10.1109/tec.2017.2769114

Cited by 12 publications

(8 citation statements)

References 42 publications

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“…This level is resilient to communication failures, meaning that converters are able to redirect their operational goals from a cooperative approach to local objectives, complying with grid codes and standards. Those converters must be power dispatchable either in current or voltage control mode [22], [23]. Currently, solutions of remotely dispatchable inverters are found commercially [24], [25], sometime through a dedicated power control module [26].…”

Section: Microgrid Topology and Control Architecturementioning

confidence: 99%

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Optimal Multiobjective Control of Low-Voltage AC Microgrids: Power Flow Regulation and Compensation of Reactive Power and Unbalance

Brandão

Ferreira

Alonso

et al. 2020

IEEE Trans. Smart Grid

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The presence of single-phase distributed generators unevenly injecting active power in three-phase microgrids may create undesired upstream current unbalance. Consequently, voltage asymmetry and even active power curtailment may occur in such networks with negative economic impact. Thus, this paper proposes an optimal multiobjective approach to regulate the active and reactive power delivered by distributed generators driven by a three-layer hierarchical control technique in low-voltage microgrids. This method does not require previous knowledge of network parameters. The multiobjective algorithm is implemented in the secondary level achieving optimal dispatch in terms of maximizing the active power generation, as well as minimizing the reactive power circulation and current unbalance. By the existence of a utility interface three-phase converter placed at the point-ofcommon-coupling, the proposed control can regulate the power circulating among the microgrid phases, and the microgrid structure can withstand grid-connected and islanded operating modes. The path for interphase power circulation through the DClink of the utility interface allows the multiobjective algorithm to achieve better results in terms of generation and compensation compared to the system without utility interface. The proposed method is assessed herein by computational simulations in a threephase four-wire microgrid under realistic operational conditions.

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Section: Microgrid Topology and Control Architecturementioning

confidence: 99%

“…Thus, the multiobjective optimization problem is formulated by two sets of objective functions. The first deals with active power that aims at maximizing FG and minimizing FNa (22). Note that since optimal problems are generally solved by minimization, when have then set "-FG" on the objective function.…”

Section: A Formulation Of Multiobjective Cost Functionsmentioning

confidence: 99%

Optimal Multiobjective Control of Low-Voltage AC Microgrids: Power Flow Regulation and Compensation of Reactive Power and Unbalance

Brandão

Ferreira

Alonso

et al. 2020

IEEE Trans. Smart Grid

View full text Add to dashboard Cite

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“…This form allows frequency adjustment with the estimated grid frequencŷobtained from the PLL. The transfer function of this controller is similar to that of the DQH controller given in Equation (25). The PMR control structure is simpler compared with the DQH control scheme.…”

Section: Pr Controller With Multi-resonant Harmonic Controllermentioning

confidence: 99%

“…Common OSG techniques include phase shifting methods and signal reconstruction methods. The phase shifting methods include a quarter period delay [23], an all-pass filter [24,25], and differentiation [26]. The OSGs introduce a slow dynamic into the control loop and even cause unstable operation if the PI regulators are not properly tuned [24].…”

Section: Introductionmentioning

confidence: 99%

High performance current control of single‐phase grid‐connected converter with harmonic mitigation, power extraction and frequency adaptation capabilities

Somkun

2020

IET Power Electronics

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Grid-connected converters in distributed generation systems are required to operate under highly distorted voltage with a wide frequency range, and to provide active/reactive power information for ancillary services and power control. This paper presents multiple unbalanced synchronous reference frame control for regulating and mitigating the grid current distortion of a voltage source converter caused by grid voltage distortion and converter deadtime. The proposed control technique has intrinsic power extraction and frequency adaptation capabilities. The multiple unbalanced synchronous reference frame control is compared with the proportional multi-resonant control. A new controller which combines the unbalanced synchronous reference frame control for regulation of the fundamental component current and the multi-resonant control for harmonic compensation is presented. The proposed control techniques were verified with a 1.5-kVA LCL-filtered grid connected inverter. The multiple unbalanced synchronous reference frame control with odd harmonic orders 3rd to 13th exhibited excellent harmonic rejection with a total harmonic distortion (THD) less than 0.60% under a highly distorted voltage. The proposed combined control technique provided slightly inferior performance with the grid current THD less than 0.65%. The combined control scheme retains functionalities as the multiple unbalanced synchronous reference frame control with a significant reduction of computational effort. This is an open access article under the terms of the Creative Commons Attribution License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited.

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“…The control of the power converter plays a vital role in the stand-alone power supply system [18][19][20]. In literature, a number of control techniques have been proposed DOI 10.18799/24131830/2021/07/3280 to control the four-leg inverter and the ZSI.…”

Section: Introductionmentioning

confidence: 99%

Управление Током Z-Инвертора С Четвертой Стойкой Для Автономной Фотоэлектрической Системы На Основе Прогнозирующего Управления

Буссабер¹,

Рабхи²,

Абуэлсауд³

et al. 2021

IZVESTIYA

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Возобновляемые источники для производства электроэнергии вызывают больший интерес у учёных и исследователей по сравнению с традиционными источниками, работающими на основе использования углеводородного топлива. Одним из типов возобновляемых источников энергии, отвечающих реализации концепции «зеленая энергетика», являются фотоэлектрические системы, способные эффективно использоваться в качестве автономной системы электроснабжения для потребителей, географически расположенных в отдаленных, труднодоступных районах. Производительность автономной системы электроснабжения во многом определяется системой преобразования и ее алгоритмами управления. В статье рассмотрена новая и альтернативная система управления автономных фотоэлектрических станций, основанная на стратегии прогнозирующего управления напряжением и током нагрузки Z-инвертора с четвертой стойкой. Цель: разработка алгоритма, основанного на стратегии прогнозирующего управления, для регулирования токов нагрузки автономной фотоэлектрической системы электроснабжения. Методы: математическое и компьютерное моделирование с использованием программной среды MatLab/Simulink. Результаты. Благодаря использованию Z-инвертора система преобразования энергии для фотоэлектрических систем генерации сокращается до одноступенчатой структуры. Результаты показывают, что предложенный алгоритм управления может эффективно регулировать ток нагрузки при сбалансированных и несбалансированных нагрузках с высокой эффективностью управления. Предлагаемый алгоритм управления имеет отличные характеристики в установившихся и переходных режимах.

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Optimal Performance Design Guideline of Hybrid Reference Frame Based Dual-Loop Control Strategy for Stand-Alone Single-Phase Inverters

Cited by 12 publications

References 42 publications

Optimal Multiobjective Control of Low-Voltage AC Microgrids: Power Flow Regulation and Compensation of Reactive Power and Unbalance

Optimal Multiobjective Control of Low-Voltage AC Microgrids: Power Flow Regulation and Compensation of Reactive Power and Unbalance

High performance current control of single‐phase grid‐connected converter with harmonic mitigation, power extraction and frequency adaptation capabilities

Управление Током Z-Инвертора С Четвертой Стойкой Для Автономной Фотоэлектрической Системы На Основе Прогнозирующего Управления

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