A Review of Multilevel Inverter Topologies for Grid-Connected Sustainable Solar Photovoltaic Systems

Nyamathulla, Shaik; Chittathuru, Dhanamjayulu

doi:10.3390/su151813376

Cited by 7 publications

(2 citation statements)

References 202 publications

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“…PV systems integrated with MLIs offer advantages for efficient power conversion and grid integration 24 – 26 , harnessing solar radiation and converting it into AC power suitable for grid or stand-alone loads 27 . The integration provides a reliable solution for RE conversion 28 . The PV system, represented by the five-parameter single-diode model, is shown in Fig.…”

Section: Complete System Modelingmentioning

confidence: 99%

A grey wolf optimization-based modified SPWM control scheme for a three-phase half bridge cascaded multilevel inverter

Nasser,

Refky,

Shatla

et al. 2024

Sci Rep

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The Multilevel inverter (MLI) plays a pivotal role in Renewable Energy (RE) systems by offering a cost-effective and highly efficient solution for converting DC from Photovoltaic (PV) sources into AC at high voltages. In addition, an innovative technology holds immense significance as it not only enables the seamless integration of PV systems into the grid but also ensures optimal power generation, thereby contributing to the widespread adoption of RE and fostering a sustainable future. This paper presents a modified sinusoidal pulse width modulation (SPWM) control scheme for a three-phase half-bridge cascaded MLI-powered PV sources. The selection of the MLI configuration is motivated by its reduced number of switching components, which enhances system reliability and simplifies experimental implementation. Compared to the SPWM schemes which require (m−1) carriers that make the generation of the pulse circuit very complex, the proposed control scheme requires only three signals: a carrier signal, a triangular waveform, and a modulating signal. This approach significantly reduces the complexity of control and facilitates practical implementation. The proposed control scheme simulation is verified using MATLAB/SIMULINK Software. The grey wolf optimization (GWO) algorithm is implemented to determine the optimal switching angles of the proposed control scheme. The Total Harmonic Distortion (THD) objective is selected to be the fitness function to be minimized for improving the quality of the output waveforms. For verification, the results of the proposed GWO-based modified SPWM control scheme are compared with those obtained using both the Particle swarm Optimization (PSO) and Genetic algorithm (GA) used in the literature. Simulation results declared that the proposed control scheme improves performance, especially THD which is minimized to 6.8%. Experimental validation has been conducted by building a laboratory prototype of the proposed system. The experimental and simulation results gave acceptable and limited convergent results considering the experimental difficulties.

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Section: Complete System Modelingmentioning

confidence: 99%

A grey wolf optimization-based modified SPWM control scheme for a three-phase half bridge cascaded multilevel inverter

Nasser,

Refky,

Shatla

et al. 2024

Sci Rep

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“…The modulation strategies that are typically employed for multilevel inverters are primarily divided into two significant groups: carrier-based methods and space vector-based methods, as discussed in multiple studies [35,36]. These methods are unique in their approach and have different usage scenarios.…”

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confidence: 99%

Performance Analysis of Modulation Strategies in Single-Phase HBNPC Inverter Across Variable Operating Conditions

Cavli,

Ozkop

2024

IEEE Access

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This study investigates the performance of a single-phase 5-level H-Bridge Neutral Point Clamped (HBNPC) inverter across various operating conditions. These conditions encompass variations in output power, frequency, modulation index, and modulation techniques. To adapt modulation strategies typically employed in 3-phase inverter structures, we apply them to a single-phase HBNPC inverter. The modulation strategies under consideration include level-shifted (LS) based on phase disposition pulse width modulation (PD-PWM), third harmonic injection pulse width modulation (THI-PWM), space vector pulse width modulation (SV-PWM), and modified PWM (MPWM). These strategies are developed using different types of reference signals (RS) and carrier signals (CS). Initially, we analyze the inverter's output voltage and current waveforms across various modulation strategy states. Subsequently, we explore the relationships between efficiency, total harmonic distortion (THD), and variable output power across different modulation strategy states. We uncover distinct patterns between modulation strategy-THD, efficiency, and output voltage for maximum inverter output power. Furthermore, we examine the relationship between the modulation index and THD for each modulation strategy state, considering different switching frequencies. Additionally, we investigate the relationship between switching frequency and THD across different modulation index values, approaching the analysis from multiple perspectives. INDEX TERMS Multilevel inverter, modulation technique, carrier signal, HBNPC I. INTRODUCTION

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Parametric estimation of photovoltaic systems using a new multi-hybrid evolutionary algorithm

Sharma,

Raju,

Salgotra

et al. 2023

Energy Reports

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A Review of Multilevel Inverter Topologies for Grid-Connected Sustainable Solar Photovoltaic Systems

Cited by 7 publications

References 202 publications

A grey wolf optimization-based modified SPWM control scheme for a three-phase half bridge cascaded multilevel inverter

A grey wolf optimization-based modified SPWM control scheme for a three-phase half bridge cascaded multilevel inverter

Performance Analysis of Modulation Strategies in Single-Phase HBNPC Inverter Across Variable Operating Conditions

Parametric estimation of photovoltaic systems using a new multi-hybrid evolutionary algorithm

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