The non-deterministic nature of power fluctuations in renewable energy sources impose challenges to the design of DC voltage-droop controller in Multi-Terminal High-Voltage DC (MTDC) systems. Fixed droop control does not consider converters’ capacity and system operational constraints. Consequently, an adaptive droop controller is counseled for appropriate power demand distribution. The previous adaptive droop control studies based on the converters’ Available-Headroom (AH) have lacked the demonstration of the droop gain design during consecutive power disturbances. In this paper, the design of the adaptive DC voltage droop control is investigated with several approaches, based on the permitted converters’ global and/or local AH and Loading...
A distributed-adaptive droop mechanism is proposed for secondary/primary control of dc Microgrids. T...
This paper proposes a new droop coefficient design method with the aim of improving the power-sharin...
Droop control has been widely applied in DC microgrids (MGs) due to its inherent modularity and ease...
© 2020 by the authors. Licensee MDPI, Basel, Switzerland. This paper presents an improved droop-base...
For droop control in voltage source converter based multi-terminal HVDC systems, the determination o...
© 2020 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
Minimization of the total transmission loss of an interconnected AC-DC grid plays an important role ...
The concept of voltage source converter based multi-terminal high-voltage direct current (MTDC) grid...
In this paper, droop control of inverters in a multi-terminal HVDC (MTDC) system is designed to achi...
By connecting many wind farms and grids via multi-terminal high-voltage direct current transmission ...
This paper proposes a generalized voltage droop (GVD) control strategy for control and power sharing...
High-power DC-DC converters are integrated into multi-terminal high-voltage DC (MTDC) networks, typi...
This paper develops an effective control framework for DC voltage control and power-sharing of multi...
Abstract: This paper develops an effective control framework for DC voltage control and power-sharin...
International audienceMTDC systems need to provide a high level of reliability as well as efficient ...
A distributed-adaptive droop mechanism is proposed for secondary/primary control of dc Microgrids. T...
This paper proposes a new droop coefficient design method with the aim of improving the power-sharin...
Droop control has been widely applied in DC microgrids (MGs) due to its inherent modularity and ease...
© 2020 by the authors. Licensee MDPI, Basel, Switzerland. This paper presents an improved droop-base...
For droop control in voltage source converter based multi-terminal HVDC systems, the determination o...
© 2020 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
Minimization of the total transmission loss of an interconnected AC-DC grid plays an important role ...
The concept of voltage source converter based multi-terminal high-voltage direct current (MTDC) grid...
In this paper, droop control of inverters in a multi-terminal HVDC (MTDC) system is designed to achi...
By connecting many wind farms and grids via multi-terminal high-voltage direct current transmission ...
This paper proposes a generalized voltage droop (GVD) control strategy for control and power sharing...
High-power DC-DC converters are integrated into multi-terminal high-voltage DC (MTDC) networks, typi...
This paper develops an effective control framework for DC voltage control and power-sharing of multi...
Abstract: This paper develops an effective control framework for DC voltage control and power-sharin...
International audienceMTDC systems need to provide a high level of reliability as well as efficient ...
A distributed-adaptive droop mechanism is proposed for secondary/primary control of dc Microgrids. T...
This paper proposes a new droop coefficient design method with the aim of improving the power-sharin...
Droop control has been widely applied in DC microgrids (MGs) due to its inherent modularity and ease...