Performance improvement of Photo-Voltaic panels by Super-Lift Luo converter in standalone application

Dheeban, S S; Selvan, N.B. Muthu; Krishnaveni, L.

doi:10.1016/j.matpr.2020.06.352

Cited by 15 publications

(3 citation statements)

References 11 publications

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“…The outcomes of both theoretical and experiments for a 1-kW setup based on the proposed configurations are presented. On the other hand, Luo converters are regarded as highly efficient in terms of power conversion [24]. It has low duty cycle and high voltage conversion efficiency.…”

Section: Design Of Boost Integrated Luo Converter For Grid Tied Ev Ba...mentioning

confidence: 99%

Design of Boost Integrated Luo Converter for Grid Tied EV Based Charging Station

Vijayarangan,

Kaliyaperumal

2023

IJEER

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The combination of Renewable Energy Source (RES) and storage element in charging station is a possible solution for meeting the growing energy requirement of electric vehicles (EVs). In a grid-tied RE system, the converters are essential for attaining the process of power conditioning. Conventional DC-DC converters suffer from issues like voltage spikes, electromagnetic interference, and efficiency losses. The necessity for integrated converters arises from the demand for improved power conditioning, increased power density, and enhanced overall system performance. As a result, in this work, boost integrated Luo converter is proposed due to the ability to address aforesaid drawbacks and offer superior power conditioning capabilities in modern power electronic systems. The Luo converter with conventional boost converter aids in alleviating the current ripples to a greater extent. The PI control with Particle Swarm Optimization (PSO) strategy is efficiently employed in this study as provides consistent voltage supply to the converter. Thus, the ultimate aim of this work is achieved by enhancing the low dc voltage of PV panel by using a PSO-PI control-based hybrid converter, which increases its efficiency, lowers the cost, supplies suitable current and voltage for energizing the battery or to charge the grid tied EV charging station. The simulation results obtained verifies the effectiveness of developed system.

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Section: Design Of Boost Integrated Luo Converter For Grid Tied Ev Ba...mentioning

confidence: 99%

Design of Boost Integrated Luo Converter for Grid Tied EV Based Charging Station

Vijayarangan,

Kaliyaperumal

2023

IJEER

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“…The positive super lift converters have very high efficiency among DC converters and it is aimed to raise the voltage without ripple by using these types of converters [14]. The output voltage increases in geometric progression stage-by-stage.…”

Section: Positive Super Lift Boost Convertermentioning

confidence: 99%

DESIGN OF P&O AND FL BASED MPPT CONTROLLERS OF PV ARRAY BY USING POSITIVE SUPER LIFT DC/DC BOOST CONVERTER

Bilhan

EMİKÖNEL²

2022

International Journal of Energy and Smart Grid

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The electricity which is generated from the photovoltaic (PV) module needs a couple of requirements for utilizing. Firstly, the PV module should work in maximum power point, and secondly, it is needed a power conversion unit. To calculate to Maximum Power Point (MPP) of a PV module or array, solar radiation, ambient temperature, cloudiness ratio, and even wind speed have to be considered. In this paper, the duty cycle of the power conversion unit has been calculated by considering solar radiation. In these calculations, a conventional method which is perturb and observation (P&O), and another approach which is fuzzy logic control (FLC) were studied and compared by using MATLAB/Simulink.

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“…Consequently, a POSLC is the focus of this article's analysis. The two most common approaches to modeling dc-dc converters are the switching signal flow graph (SFG) and the state space averaging [9][10][11]. While the equations derived using the SFG method are straightforward, the method's lack of dynamic detail results from the modeling technique in averaging the high-frequency components Which will render the controller unsuitable for large-signal dynamic control.…”

Section: Introductionmentioning

confidence: 99%

Efficient Design, Analysis and Implementation of Super-Lift LUO Converter for Standalone PV Applications

Ghafour

Ajel

Yasin

et al. 2023

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Positive-output super-lift Luo converters (POSLCs) with low switching losses are the subject of this paper's analysis, design, and regulation. Due to their ability to boost voltage at higher levels, converter switching devices are rarely put under extreme voltage conditions. The input voltage to an active switching device is typically lower than the output voltage. This means that low-quality components are used to build the converter. The proposed conversion can be a good choice in PV micro converter applications requiring high voltage gain. The continuous conduction mode of the converter and its underlying operating principle and steady-state analysis are described. The converter's basic principle is demonstrated by constructing a working hardware prototype, which is tested in the lab. The outcomes demonstrate the benefits of employing an Arduino for voltage control. It has also been found that the converter achieves maximum efficiency of 95.3% at full load. The results were confirmed using MATLAB / Simulink in POSLC design with MPPT which is in agreement with the experimental results.

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Performance improvement of Photo-Voltaic panels by Super-Lift Luo converter in standalone application

Cited by 15 publications

References 11 publications

Design of Boost Integrated Luo Converter for Grid Tied EV Based Charging Station

Design of Boost Integrated Luo Converter for Grid Tied EV Based Charging Station

DESIGN OF P&O AND FL BASED MPPT CONTROLLERS OF PV ARRAY BY USING POSITIVE SUPER LIFT DC/DC BOOST CONVERTER

Efficient Design, Analysis and Implementation of Super-Lift LUO Converter for Standalone PV Applications

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