Add to ORKGThis paper describes a combined current and voltage unbalance compensation scheme for static power converters on a multi-bus microgrid utilizing cooperative regulation on a sparse ad-hoc communication network. The proposed control scheme is both robust to changing network conditions and corrects for sub-optimal gain settings at each distributed generation unit. The scheme is based on local voltage and current measurements by each distributed generation unit on the network, and utilizes a primary and secondary control hierarchy. The scheme is then simulated using Matlab SimPowerSystem to demonstrate operation of the compensation scheme and evaluate its performance
A large number of single-phase loads in an islanded microgrid have a bad influence on the alternatin...
This paper proposes a novel approach to compensate buses voltage and current harmonics through distr...
Abstract This paper enhances a self‐adjusting droop control strategy further to achieve an improved ...
It is common for industrial and commercial microgrids to experience high levels of load unbalance wh...
© 2022 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
Direct current (DC) microgrid is being increasingly investigated in modern power grid. An important ...
Collaborative control of power converters operating in microgrids with unbalanced single-phase loads...
Collaborative control of power converters operating in microgrids with unbalanced single-phase loads...
Decentralised droop-like control method is the most favourable control system for power converter-ba...
© 2021 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
For islanded microgrids, droop-based control concepts have been developed both in single and three-p...
This paper proposes a technique for the power flow control of three-phase four-wire low-voltage powe...
This paper proposes a coordinated control strategy for islanded microgrids (MGs) including bus volta...
In recent years, the harmonics and unbalance problems endanger the voltage and current quality of po...
This paper is based on a detailed study of cooperative secondary control strategy for accurate load ...
A large number of single-phase loads in an islanded microgrid have a bad influence on the alternatin...
This paper proposes a novel approach to compensate buses voltage and current harmonics through distr...
Abstract This paper enhances a self‐adjusting droop control strategy further to achieve an improved ...
It is common for industrial and commercial microgrids to experience high levels of load unbalance wh...
© 2022 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
Direct current (DC) microgrid is being increasingly investigated in modern power grid. An important ...
Collaborative control of power converters operating in microgrids with unbalanced single-phase loads...
Collaborative control of power converters operating in microgrids with unbalanced single-phase loads...
Decentralised droop-like control method is the most favourable control system for power converter-ba...
© 2021 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
For islanded microgrids, droop-based control concepts have been developed both in single and three-p...
This paper proposes a technique for the power flow control of three-phase four-wire low-voltage powe...
This paper proposes a coordinated control strategy for islanded microgrids (MGs) including bus volta...
In recent years, the harmonics and unbalance problems endanger the voltage and current quality of po...
This paper is based on a detailed study of cooperative secondary control strategy for accurate load ...
A large number of single-phase loads in an islanded microgrid have a bad influence on the alternatin...
This paper proposes a novel approach to compensate buses voltage and current harmonics through distr...
Abstract This paper enhances a self‐adjusting droop control strategy further to achieve an improved ...