A New High-Gain DC-DC Converter with Continuous Input Current for DC Microgrid Applications
Javed Ahmad,Mohammad Zaid,Adil Sarwar,Chang-Hua Lin,Mohammed Asim,Raj Kumar Yadav,Mohd Tariq,Kuntal Satpathi,Basem Alamri +8 more
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TLDR
A new high-gain DC-DC converter with quadratic voltage gain and reduced voltage stress across switching devices was proposed, and the converter was compared with other recently developed topologies in terms of stress, the number of passive components, and voltage stressAcross switching devices.Abstract:
The growth of renewable energy in the last two decades has led to the development of new power electronic converters. The DC microgrid can operate in standalone mode, or it can be grid-connected. A DC microgrid consists of various distributed generation (DG) units like solar PV arrays, fuel cells, ultracapacitors, and microturbines. The DC-DC converter plays an important role in boosting the output voltage in DC microgrids. DC-DC converters are needed to boost the output voltage so that a common voltage from different sources is available at the DC link. A conventional boost converter (CBC) suffers from the problem of limited voltage gain, and the stress across the switch is usually equal to the output voltage. The output from DG sources is low and requires high-gain boost converters to enhance the output voltage. In this paper, a new high-gain DC-DC converter with quadratic voltage gain and reduced voltage stress across switching devices was proposed. The proposed converter was an improvement over the CBC and quadratic boost converter (QBC). The converter utilized only two switched inductors, two capacitors, and two switches to achieve the gain. The converter was compared with other recently developed topologies in terms of stress, the number of passive components, and voltage stress across switching devices. The loss analysis also was done using the Piecewise Linear Electrical Circuit Simulation (PLCES). The experimental and theoretical analyses closely agreed with each other.read more
Citations
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Journal ArticleDOI
New High-Gain Transformerless DC/DC Boost Converter System
TL;DR: In this paper , a new high-gain transformerless dc/dc boost converter is proposed for PV micro-converter applications, where high voltage-gain is required to boost voltage at higher voltage levels, converter switching devices are under low voltage stress.
Journal ArticleDOI
A Family of Transformerless Quadratic Boost High Gain DC-DC Converters
Mohammad Zaid,Chang-Hua Lin,Shahrukh Khan,Javed Ahmad,Mohd Tariq,Arshad Mahmood,Adil Sarwar,Basem Alamri,Ahmad Alahmadi +8 more
TL;DR: Three new and improved non-isolated topologies of quadratic boost converters (QBC) are presented that utilize only a single switch and have continuous input current and low voltage stress across switch, capacitors, and diodes, which leads to the selection of low voltage rating components.
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Comparative Study of DC-DC Converters for Solar PV with Microgrid Applications
TL;DR: In this article , the role and performance of versatile DC-DC converters in AC/DC and hybrid microgrid applications, especially when solar PV is the major source, is discussed.
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A novel switched-capacitor and fuzzy logic-based quadratic boost converter with mitigated voltage stress, applicable for DC micro-grid
Generalization of a DC–DC Modular Converter Topology for Fuel Cell Applications
Mohammad Javad Afkar,Roghayeh Gavagsaz-Ghoachani,Matheepot Phattanasak,A. Siangsanoh,Jean-Philippe Martin,Serge Pierfederici +5 more
TL;DR: In this article , a new modular dc-dc converter topology is presented, where each converter module is based on a three-level dc−dc converter, which contains two output capacitors.
References
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Step-Up DC–DC Converters: A Comprehensive Review of Voltage-Boosting Techniques, Topologies, and Applications
TL;DR: In this paper, the authors comprehensively review and classify various step-up dc-dc converters based on their characteristics and voltage-boosting techniques, and discuss the advantages and disadvantages of these voltage boosting techniques and associated converters.
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Survey on non-isolated high-voltage step-up dc–dc topologies based on the boost converter
Fernando Lessa Tofoli,Denis de Castro Pereira,Wesley Josias de Paula,Demercil de Sousa Oliveira Júnior +3 more
TL;DR: A proper comparison is established among the most important non-isolated boost-based dc-dc converters regarding the voltage stress across the semiconductor elements, number of components and static gain.
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High-Efficiency DC-DC Converter With High Voltage Gain and Reduced Switch Stress
TL;DR: The closed-loop control methodology is utilized in the proposed scheme to overcome the voltage drift problem of the power source under the variation of loads and achieve the aim of high-efficiency power conversion.
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A DC-DC charge pump design based on voltage doublers
TL;DR: In this paper, a two-phase voltage doubler and a multiphase voltage multiplier are discussed and design guidelines for the desired voltage and power levels are discussed, as well as the area requirements, the voltage gain, and the power level.
Journal ArticleDOI
An Efficient High-Step-Up Interleaved DC–DC Converter With a Common Active Clamp
Suman Dwari,Leila Parsa +1 more
TL;DR: This paper presents a high-efficiency and high-step-up nonisolated interleaved dc-dc converter with a common active-clamp circuit that achieves high efficiency because of the recycling of the leakage energies, reduction of the switch voltage stress, mitigation of the output diode's reverse recovery problem, and interleaving of the converters.
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