An active parallel power decoupling circuit with a dual loop control scheme for micro‐inverters

Rezaei, Mohammad Hossein; Akhbari, Mahdi

doi:10.1002/cta.3088

Cited by 5 publications

(2 citation statements)

References 54 publications

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“…Grid-supporting inverters supply reactive power and varying active power at predefined droop setting [2]. Grid-feeding inverters maintain a constant current output and provide active power in phase with the grid because they focus on MPPT and zero reactive power [3,4]. Therefore, integrating PV, inverter and energy storage as an AC-PV module might help solve this energy problem.…”

Section: Introductionmentioning

confidence: 99%

Design and optimization of battery and thermal management system for AC photovoltaic energy module

Gullu,

Batarseh,

Alaql

2024

International Journal of Energy Studies

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The utilization of renewable energy sources has increased due to concerns about climate change. However, injecting the power from renewable energy sources into grid-tied systems is challenging. The techno-economic analysis a photovoltaic (PV) energy systems is investigated. As a result, this paper presents AC-PV module for Grid-Tied and Off-Grid Scenarios via optimization, modeling, and test results. Even though the output of a PV panel is DC voltage, a three-port inverter and a lithium-ion battery pack are integrated with the back of the PV panel. They are packaged as a PV system module that makes the module output have AC voltage. Therefore, an optimized AC-PV module can be a solution for residential and commercial use, which are grid-tied systems; it can be very efficient for those without access to electricity, which is an off-grid system. An integrated battery and thermal management strategy is crucial for this AC-PV module. In the article, the battery capacity optimization, the electrical and the thermal model of the battery pack, battery heat generation model are discussed by using stochastic analysis techniques; the battery test results are also obtained to identify the models’ parameters and a control algorithm is proposed to extract the battery information such as temperature, current, voltage, SoC and SoH of the battery pack.

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Section: Introductionmentioning

confidence: 99%

Design and optimization of battery and thermal management system for AC photovoltaic energy module

Gullu,

Batarseh,

Alaql

2024

International Journal of Energy Studies

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“…However, PI controllers suffer from relatively low loop gains at the fundamental frequency and the corresponding harmonics. In previous research, [24][25][26] the proportional resonant (PR) control is proposed. It provides infinite gain at the resonant frequency and can track the sinusoidal signal without static error, but the PR controller is hard to realize, and the control gain is limited when the bus voltage frequency fluctuates.…”

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confidence: 99%

Disturbance observer‐based quasi‐proportional resonant composite control strategy for high‐frequency LCLC inverters

Fang

Liu

Zhou

et al. 2023

Circuit Theory & Apps

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SummaryA quasi‐proportional resonant (QPR) composite control strategy based on disturbance observer (DOB) is proposed to improve the power quality and dynamic performance of the high‐frequency AC distribution system source side. The load DOB normalizes the controlled object while suppressing the load disturbance and improving the system's robustness and dynamic performance of the system. The QPR control strategy is proposed based on the internal mode principle, which improves the tracking capability of the system for the operating frequency band signal, reduces the system output steady‐state error, and suppresses the inverter output voltage harmonics. To adapt to the high bandwidth requirement of the controller for high‐frequency AC inverters, the proposed control strategy based on analogy devices implementation circuit is designed, and the corresponding controller parameters design method is given. Compared with the traditional control strategy, the proposed control strategy can reduce the inverter output voltage harmonics, effectively suppress the load disturbance, and improve the dynamic performance and steady‐state performance of the system. Finally, the experimental platform verifies the feasibility and effectiveness of the proposed control strategy and the designed circuit.

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Power decoupling capability with PR controller for Micro-Inverter applications

Rezaei

Akhbari

2022

International Journal of Electrical Power & Energy Systems

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An active parallel power decoupling circuit with a dual loop control scheme for micro‐inverters

Cited by 5 publications

References 54 publications

Design and optimization of battery and thermal management system for AC photovoltaic energy module

Design and optimization of battery and thermal management system for AC photovoltaic energy module

Disturbance observer‐based quasi‐proportional resonant composite control strategy for high‐frequency LCLC inverters

Power decoupling capability with PR controller for Micro-Inverter applications

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