Dual‐mode magnetically integrated photovoltaic microconverter with adaptive mode change and global maximum power point tracking

Maheri, Hamed Mashinchi; Vinnikov, Dmitri; Chub, Andrii; Korkh, Oleksandr; Rosin, Argo; Babaei, Ebrahim

doi:10.1049/rpg2.12007

Cited by 7 publications

(1 citation statement)

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“…Various transformer-less structures have been presented. Cascaded and quasi-Z source converters [8][9][10] and dc-dc converters with coupled inductors [11][12][13][14] are of such structures. Reduction in the efficiency due to being multi-stage in the cascaded converters is the main drawback of this type of structures.…”

Section: Introductionmentioning

confidence: 99%

A transformer‐less DC–DC converter with high voltage conversion ratio adopting inverting voltage lift cell

Babaei

Maheri

Sabahi

2021

IET Circuits, Devices & Syst

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In this work, a high voltage gain dc-dc converter is proposed based on a switched inductor cell. The proposed converter utilises an inverting switched capacitor cell at the output side to achieve high voltage gain. Extendibility of the proposed structure without applying the fundamental change to the topology is the merit of the proposed structure as well as the low voltage stress on the switches. The operation of the switches with the same duty cycle is the other advantage of the proposed converter. The steady-state analysis of the proposed converter is discussed in detail. The proposed converter is investigated under real conditions in order to compare it with its operation under ideal conditions. The proposed structure is compared with other topologies presented in the literature, previously. Finally, the experimental results are given to prove the validity of the theoretical analysis.

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Section: Introductionmentioning

confidence: 99%

A transformer‐less DC–DC converter with high voltage conversion ratio adopting inverting voltage lift cell

Babaei

Maheri

Sabahi

2021

IET Circuits, Devices & Syst

Self Cite

View full text Add to dashboard Cite

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DC Integration of Residential Photovoltaic Systems: A Survey

et al. 2022

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PV systems are penetrating the energy generation market rapidly. PV system output strongly depends on environmental conditions. As a result, the utilization of power electronic converters is mandatory. On the other hand, most modern loads, from small to big ones, are based on dc, similar to the renewable sources generating dc. Hence, wide adoption of residential dc microgrids (RDCμGs) based on PV energy would be a trend soon, following modern developments in energy-efficient buildings. This paper targets power converters for the integration of PV systems into RDCμGs. It considers two main classes: high stepup converters for PV module-level, parallel optimizer, applications, and non-isolated buck-boost converters for the PV string, series optimizer, applications. Due to the importance of the PV topic, a significant number of topologies have been introduced in the literature. However, not all topologies attracted the interest of the industry. This review paper considers PV converters used in industry or demonstrated in academia at a high technology readiness level with comprehensive experimental justification. This allows us to focus this review on the most valuable solutions and to provide a guide for both industry and academic readers. In the end, future trends in industrial PV systems and power converters are discussed.

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