Add to ORKGA dynamic performance assessment method is proposed for DC microgrids. With the control scheme modeled as virtual impedance, an actively controlled slack converter terminal of a DC network can be modeled as a circuit branch in S-domain. Using Thevenin's equivalent, transfer functions of a DC microgrid are then deduced. A control scheme is proposed to enhance the dynamics of a DC system with multiple slack terminals. A case study of a multi-terminal DC microgrid is performed to analyze and enhance its dynamics. Time domain simulation and experiments are carried out to validate the proposed analytical and enhancement method
Autonomous DC voltage control for a DC microgrid with multiple power and slack terminals is studied ...
One of the most important issues in microgrid control is power sharing. Proper power sharing ensures...
This paper proposed a secondary control method for power sharing accuracy enhancement and bus voltag...
A dynamic performance assessment method is proposed for DC microgrids. With the control scheme model...
This thesis presents several aspects of the control and operation of a DC micro grid with variable g...
A stability and dynamic assessment method is proposed for converter interfaced DC networks. With the...
Microgrid frequency and voltage regulation is a challenging task, as classical generators with rotat...
Rapid development of Distributed Energy Resources (DERs) and DC-powered loads entails the possibilit...
Droop control has shown promising results for decentralized power sharing in microgrids. However, th...
This paper proposes an adaptive virtual inertia control system for stable operation of Microgrids: i...
Direct-current (dc) microgrids interconnect dc loads, distributed renewable energy sources, and ener...
The power oscillations at the input of constant power loads (CPLs) fed by LC filters is a well-known...
DC microgrid technology has become one of key smart grid research topics in recent years. In compari...
This work aims to enhance the ability of a direct current (DC) microgrid to guarantee the power supp...
The objective of this dissertation is to carry out dynamic modeling, analysis and control for Voltag...
Autonomous DC voltage control for a DC microgrid with multiple power and slack terminals is studied ...
One of the most important issues in microgrid control is power sharing. Proper power sharing ensures...
This paper proposed a secondary control method for power sharing accuracy enhancement and bus voltag...
A dynamic performance assessment method is proposed for DC microgrids. With the control scheme model...
This thesis presents several aspects of the control and operation of a DC micro grid with variable g...
A stability and dynamic assessment method is proposed for converter interfaced DC networks. With the...
Microgrid frequency and voltage regulation is a challenging task, as classical generators with rotat...
Rapid development of Distributed Energy Resources (DERs) and DC-powered loads entails the possibilit...
Droop control has shown promising results for decentralized power sharing in microgrids. However, th...
This paper proposes an adaptive virtual inertia control system for stable operation of Microgrids: i...
Direct-current (dc) microgrids interconnect dc loads, distributed renewable energy sources, and ener...
The power oscillations at the input of constant power loads (CPLs) fed by LC filters is a well-known...
DC microgrid technology has become one of key smart grid research topics in recent years. In compari...
This work aims to enhance the ability of a direct current (DC) microgrid to guarantee the power supp...
The objective of this dissertation is to carry out dynamic modeling, analysis and control for Voltag...
Autonomous DC voltage control for a DC microgrid with multiple power and slack terminals is studied ...
One of the most important issues in microgrid control is power sharing. Proper power sharing ensures...
This paper proposed a secondary control method for power sharing accuracy enhancement and bus voltag...