A new current programming technique using predictive control

Shanker, Pranav; Kim, J.M.S.

doi:10.1109/intlec.1994.396633

Cited by 23 publications

(6 citation statements)

References 5 publications

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“…The PV array typically generates low-voltage energy, which can be challenging to handle depending on the required power output. To address this issue, a boost converter can be employed in specific scenarios [20], [21]. Figure 3…”

Section: Pv Characteristics and Modelingmentioning

confidence: 99%

Fuzzy logic control based MPPT for standalone photovoltaic system with battery storage

Taib,

Noor,

Musa

et al. 2023

IJPEDS

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<span lang="EN-US">Considering its favorable characteristics, photovoltaic energy is widely recognized as highly beneficial to the environment. To achieve continuous maximum output power across the PV system, an efficient control strategy is developed after studying several maximum power point detection (MPPT) techniques. Consequently, this paper presents a useful control technique for maximizing power extraction from PV systems under varying conditions. The paper focuses on the design of a fuzzy logic control (FLC)-based maximum power point tracking (MPPT) system for a standalone photovoltaic (SAPV) system with battery storage. The FLC is employed to extract the maximum power from a PV module and integrate it with the battery to supply the load. The FLC offers advantages over conventional MPPT methods, such as accurate and rapid response to changes in environmental conditions, including solar irradiance and temperature. The PV system exhibits low total harmonic distortion (THD), making it ideal for household appliances, and can deliver 230 Vrms of single-phase output AC power. The system is designed and implemented in MATLAB/Simulink, incorporating a solar module, DC-to-DC converters, battery storage, and an inverter for supplying AC loads. Simulation results for selected test conditions are presented and discussed. The system performance is evaluated through steady state tests and dynamic tests in simulations.</span>

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Section: Pv Characteristics and Modelingmentioning

confidence: 99%

Fuzzy logic control based MPPT for standalone photovoltaic system with battery storage

Taib,

Noor,

Musa

et al. 2023

IJPEDS

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“…The PV array usually generates energy in low voltage and depending of the power to process, this characteristic can represent an inconvenient. In these cases a boost converter can be utilized because of its high efficiency and its small number of components [31] [32]. Figure 3 presents the stand alone PV system using a boost converter.…”

Section: Photovoltaic System Configurationsmentioning

confidence: 99%

Comparative Study Of Maximum Power Point Tracking Techniques For Photovoltaic Systems

Cavalcanti¹,

Oliveira²,

Azevedo³

et al. 2007

Eletrônica de Potência

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This paper presents a comparative study among maximum power point tracking methods for photovoltaic systems. The comparison takes into account steady state error, dynamic response and efficiency in a large power range. In special, an extensive bibliography and a classification of many maximum power point tracking methods is presented. Computational simulations with fast changes in the solar irradiance have been done and the best maximum power point tracking technique is chosen. Experimental results corresponding to the operation of a photovoltaic converter controlled by a digital signal processor are also presented.

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“…Each of these two had their own merits and limitations but, the interleaved control widely preferred on account of above said advantages. One such interleaved boost topology has been reported in literature [4]. Its application has been demonstrated in power factor correction [2], maximum power point tracking in photovoltaic applications [3], load sharing in dc distribution, etc,.…”

Section: Introductionmentioning

confidence: 99%

Low source current-ripple high gain boost converter

Veerachary

Bhavana

2014

2014 9th International Conference on Industrial and Information Systems (ICIIS)

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This paper presents analysis and design of low source current ripple high-gain boost converter. The proposed converter exhibits higher voltage gain, almost double, in comparison to the well-established conventional boost converter. A steady-state analysis is made, and then converter elements design expressions are established. These design expressions are then used to design a 24 to 100 V, 50 W prototype. Steady-state performance proposed converter is compared with other highgain dc-dc converters. Simulation and experimental results are presented to validate the proposed design. Experimental measurements are in close correlation to simulation results. Index Terms-Boost converter, High voltage gain, Higherorder boost converter, Quadratic Boost Converter.

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A new current programming technique using predictive control

Cited by 23 publications

References 5 publications

Fuzzy logic control based MPPT for standalone photovoltaic system with battery storage

Fuzzy logic control based MPPT for standalone photovoltaic system with battery storage

Comparative Study Of Maximum Power Point Tracking Techniques For Photovoltaic Systems

Low source current-ripple high gain boost converter

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