Control and management of hybrid AC/DC microgrid based on
Microgrids can be classified as AC, DC and hybrid AC/DC type. Loads require both AC and DC supply. Thus many stages of power conversion from DC to AC or vice versa are
Control and management of hybrid AC/DC
Microgrids can be classified as AC, DC and hybrid AC/DC type. Loads require both AC and DC supply. Thus many stages of power
Bidirectional DC–AC Converter-Based
In this paper, a bidirectional DC–AC converter topology is proposed to achieve the composite transmission of power and signals in
Advanced control scheme for harmonic mitigation and
The system incorporates parallel inverters with dual DC-link capacitors connected to a shared DC grid, enabling enhanced reliability and efficient power-sharing.
A Novel Dual Input Quasi Z Source Bidirectional DC–DC
This article presents a novel dual-input bidirectional quasi-Z-source dc–dc converter (DIBQZSC) using minimum components designed for 1 kW, 400 V, 50 kHz applications in microgrid.
Fortifying Renewable-Dominant Hybrid Microgrids: A Bi-Directional
Interconnection planning involving bi-directional converters (BdCs) is crucial for enhancing the reliability and robustness of hybrid alternating current (AC)/direct current (DC)
Harnessing the Power of DC Microgrids for Industrial
Connecting the DC microgrid to the AC grid requires a bidirectional power supply. This supply handles AC-to-DC conversion with a high power factor and must be able to perform DC-to-AC
Advanced control scheme for harmonic mitigation
The system incorporates parallel inverters with dual DC-link capacitors connected to a shared DC grid, enabling enhanced reliability
Design and Simulation of DC Microgrid with DC-DC Bi
In this study, it is suggested to develop and analyse a DC microgrid utilising a DC-DC bidirectional converter. The microgrid is intended to function independently from the electrical grid.
Bidirectional DC–AC Converter-Based Communication Solution for Microgrid
In this paper, a bidirectional DC–AC converter topology is proposed to achieve the composite transmission of power and signals in microgrids. Since the transmitted signals are
Enhancing Grid-Forming Converters Control in Hybrid AC/DC Microgrids
This paper introduces a unique approach that leverages bidirectional virtual inertia support to enhance the stability and reliability of hybrid AC/DC microgrids under weak grid
Enhancing Grid-Forming Converters Control in
This paper introduces a unique approach that leverages bidirectional virtual inertia support to enhance the stability and reliability of
Optimized power flow control in bidirectional converters for
This paper presents a novel power flow control strategy for residential DC Microgrids using a dynamic bidirectional converter with an energy management scheme,
LADRC Control Strategy for Bidirectional Grid-Connected
This paper proposes a novel bus voltage control strategy based on LADRC, taking the grid-connected DC microgrid as the backdrop and the bidirectional grid-connected inverter
LADRC Control Strategy for Bidirectional Grid-Connected Inverters in DC
This paper proposes a novel bus voltage control strategy based on LADRC, taking the grid-connected DC microgrid as the backdrop and the bidirectional grid-connected inverter
Fortifying Renewable-Dominant Hybrid Microgrids: A Bi
Interconnection planning involving bi-directional converters (BdCs) is crucial for enhancing the reliability and robustness of hybrid alternating current (AC)/direct current (DC)