In an islanded hybrid AC/DC microgrid, the existing intermittent distributed generations (DGs) and local loads variation frequently cause power fluctuation. And the DC bus voltage is sensitive to it. A virtual inertia control strategy of interlinking converters (ILCs) in an islanded hybrid microgrid is proposed in this paper, which restrains the DC bus voltage fluctuation and enhances the inertia of the hybrid microgrid. Traditional droop control methods of ILCs mostly only focus on power sharing. The proposed control strategy can not only maintain proportional power distribution between DC and AC subgrids, but also regulate the DC bus voltage directly. It can improve microgrid stability during DC-side loading transitions or distributed ene...
Abstract Parallel operation of inverter modules is the solution to increase the reliability, efficie...
Generation is shifting from a centralized power generating facility having large synchronous generat...
Microgrids appear as the key part of the future power systems that include distributed generators, r...
A methodology for controlling the inertia of the interlinking converter of a hybrid AC-DC microgrid ...
Distributed generation supply efficiency can be fully realized with the use of a microgrid as a powe...
This paper presents decentralized control of an islanding/grid-connected DC/AC hybrid microgrid (μG)...
This paper presents a multi-purpose interlinking converter control design along with a simplified ce...
A microgrid may contain a large number of distributed generators (DGs). These DGs can be either iner...
Achieving an accurate steady-state averaged active power sharing between parallel inverters in islan...
This paper presents control methods for hybrid AC/DC microgrid under islanding operation condition. ...
In hybrid microgrid, interlinking converter (ILC) is a key component to connect the AC subgrid and ...
New opportunities for optimally integrating the increasing number of distributed generation (DG) uni...
Abstract Hybrid AC‐DC microgrids (HMGs) are formed by interconnecting AC microgrids (MGs) and DC mic...
The increasing penetration of renewable generators can be a significant challenge due to the fluctua...
© 2017 IEEE. The hybrid AC/DC microgrid structure is considered to be the future trend of power syst...
Abstract Parallel operation of inverter modules is the solution to increase the reliability, efficie...
Generation is shifting from a centralized power generating facility having large synchronous generat...
Microgrids appear as the key part of the future power systems that include distributed generators, r...
A methodology for controlling the inertia of the interlinking converter of a hybrid AC-DC microgrid ...
Distributed generation supply efficiency can be fully realized with the use of a microgrid as a powe...
This paper presents decentralized control of an islanding/grid-connected DC/AC hybrid microgrid (μG)...
This paper presents a multi-purpose interlinking converter control design along with a simplified ce...
A microgrid may contain a large number of distributed generators (DGs). These DGs can be either iner...
Achieving an accurate steady-state averaged active power sharing between parallel inverters in islan...
This paper presents control methods for hybrid AC/DC microgrid under islanding operation condition. ...
In hybrid microgrid, interlinking converter (ILC) is a key component to connect the AC subgrid and ...
New opportunities for optimally integrating the increasing number of distributed generation (DG) uni...
Abstract Hybrid AC‐DC microgrids (HMGs) are formed by interconnecting AC microgrids (MGs) and DC mic...
The increasing penetration of renewable generators can be a significant challenge due to the fluctua...
© 2017 IEEE. The hybrid AC/DC microgrid structure is considered to be the future trend of power syst...
Abstract Parallel operation of inverter modules is the solution to increase the reliability, efficie...
Generation is shifting from a centralized power generating facility having large synchronous generat...
Microgrids appear as the key part of the future power systems that include distributed generators, r...