Analysis of Non-Isolated Multi-Port Single Ended Primary Inductor Converter for Standalone Applications

Anuradha, C.; Sakthivel, C.; Venkatesan, T.; Chellammal, N.

doi:10.3390/en11030539

Cited by 7 publications

(2 citation statements)

References 30 publications

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“…However, it kept the centralized structure of PV/battery strings that The MPC topology can be fully isolated implementing multi-winding transformers with half-bridge topology [5] or full-bridge topology [6][7][8] to allow full isolation between all ports. Other alternatives are partially isolated [9][10][11][12][13][14] or non-isolated topologies [15][16][17][18][19][20][21][22]. The isolated and partly isolated MPCs are better choices for applications that require some sort of galvanic isolation, however the use of transformer may reduce the power density of such converters.…”

Section: Introductionmentioning

confidence: 99%

A Novel Modular Multiport Converter for Enhancing the Performance of Photovoltaic-Battery Based Power Systems

2019

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This paper introduces a novel multiport power converter with modular architecture for photovoltaic (PV)-battery based power systems. Compared to conventional centralized multiport converters, the proposed converter significantly improves the utilization of PV available energy and battery capacity as it does not require a high number of series-connected PV and battery modules. The proposed converter also eliminates the need for additional battery cell/module equalizer circuitry by being able to implement directly energy management strategies that consider the different capabilities of battery modules to ensure charge/stress balancing. This makes it a promising solution for interfacing second-life batteries or for systems that utilize batteries with a high degree of mismatch. The modularity of the proposed converter enhances system reliability and fault tolerance and reduces the power/voltage ratings of the power electronic devices. The converter modes of operation, control strategy and design considerations are discussed. A 75 V/1 kW integrated PV-battery power system prototype is built and tested to validate the concept.

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Section: Introductionmentioning

confidence: 99%

A Novel Modular Multiport Converter for Enhancing the Performance of Photovoltaic-Battery Based Power Systems

2019

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“…[17] eliminates the active switches that are connected with the output port by series-connecting the secondary sides of two transformers, whose primary sides are linked with two DC power sources, while the converter is only suitable for unidirectional power flow. Non-isolated MPCs use modules in parallel connection to obtain the multi-port configurations, which reduce the volume due to the elimination of bulky transformers [18][19][20]. However, they are mainly applied for the stand-alone systems such as electric vehicles (EVs) because galvanic isolation is preferred for the grid-tie systems for the safety reason.…”

Section: Introductionmentioning

confidence: 99%

Modular Multi-Port Ultra-High Power Level Power Converter Integrated with Energy Storage for High Voltage Direct Current (HVDC) Transmission

Song

Li²,

et al. 2018

Energies

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To connect renewable energy sources (RESs) with a unity-grid, energy storage (ES) systems are essential to eliminate the weather fluctuation effect, and high voltage direct current (HVDC) transmission is preferred for large-scale RESs power plants due to the merits of low cost and high efficiency. This paper proposes a multi-port bidirectional DC/DC converter consisting of multiple modules that can integrate ES system and HVDC transmission. Thanks to the adoption of three-port converters as submodules (SMs), ES devices, for example, batteries, can be decentralized into SMs and controlled directly by the SMs. Additionally, SMs are connected in a scalable matrix topology, presenting the advantages of flexible power flows, high voltage step-up ratios and low voltage/current ratings of components to satisfy the requirements of HVDC transmission. Furthermore, the control flexibility and fault tolerance capability are increased due to the matrix topology. In this paper, the analysis of the novel modular multi-port converter is introduced, and its functions are verified by the simulation results in PSIM.

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Converter/Inverter Topologies for Standalone and Grid-Connected PV Systems

Thanikanti

Yousri

Allam

et al. 2021

Energy Systems in Electrical Engineering

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Analysis of Non-Isolated Multi-Port Single Ended Primary Inductor Converter for Standalone Applications

Cited by 7 publications

References 30 publications

A Novel Modular Multiport Converter for Enhancing the Performance of Photovoltaic-Battery Based Power Systems

A Novel Modular Multiport Converter for Enhancing the Performance of Photovoltaic-Battery Based Power Systems

Modular Multi-Port Ultra-High Power Level Power Converter Integrated with Energy Storage for High Voltage Direct Current (HVDC) Transmission

Converter/Inverter Topologies for Standalone and Grid-Connected PV Systems

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