Enhancing Photovoltaic Conversion Efficiency With Model Predictive Control-Based Sensor-Reduced Maximum Power Point Tracking in Modified SEPIC Converters

Abdel-Rahim, Omar; Alghaythi, Mamdouh L.; Alshammari, Meshari S.; Osheba, Dina S. M.

doi:10.1109/access.2023.3315150

Cited by 7 publications

(1 citation statement)

References 27 publications

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“…A novel method for maximum power point tracking (MPPT) in solar power systems is presented by the researcher in [26]. To accomplish effective MPPT under a variety of environmental circumstances, the approach makes use of a modified SEPIC converter and an MPPT algorithm based on model predictive control (MPC).…”

Section: Common Topologies Used In Pv Systemsmentioning

confidence: 99%

A Systematic Review of Boost Converter Design Methodologies for Optimizing Photovoltaic Output

Shou Hin,

Mohamad Nor

2023

IJCERT

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This paper offers a systematic review of boost converter design methodologies, a pivotal component in optimizing photovoltaic system outputs. It comprehensively analyzes various converter topologies, focusing on their operational principles and efficiency in solar energy conversion. The study delves into the intricate challenges of maximizing efficiency under diverse environmental conditions, emphasizing the need for adaptive and robust converter designs. It explores recent technological advancements, highlighting how they address these challenges and contribute to improved photovoltaic performance. The review aims to provide a broad understanding of current trends in converter technology and suggests future research directions, particularly in developing more versatile and efficient converters to better harness solar energy. This work serves as a foundational resource for practitioners and researchers in renewable energy, offering insights into enhancing the efficacy of photovoltaic systems. This comprehensive review examines various boost converter designs for optimizing photovoltaic output, revealing key findings. It was found that certain topologies offer significant advantages in terms of efficiency and adaptability to environmental changes. The paper also highlights the evolving nature of converter technology, showing promising directions in handling solar energy fluctuations. These insights are crucial for advancing photovoltaic system efficiency and reliability, offering a roadmap for future research in renewable energy technology.

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Section: Common Topologies Used In Pv Systemsmentioning

confidence: 99%