DC microgrids have shown to be a good approach for better accommodating stochastic renewable energy sources (RES) and for the charging of electric vehicles (EVs) at the distribution level. For this, fast-acting energy storage units (ESSs) are essential. This requires that both the bi-directional power converter topology and the control scheme present the right set of features. The ESS discussed in this paper consists of a new DC-DC converter based on a tapped inductor (TI) for a higher voltage gain at moderate duty cycles. The direction of the current in its intermediate inductor does not need to be reversed for power flow reversal, leading to a faster action. Moreover, it can employ a multi-state and multi-variable modulation scheme that e...
The bi-directional DC / DC converter in DC microgrid is a typical nonlinear system which has large v...
This research proposes an enhanced converter for a hybrid energy storage system (HESS) for a multi-i...
The motivation of this work is to model and control a hybrid electric system with multiple power sou...
International audienceEnergy storage devices are frequently employed for dynamic voltage regulation ...
DC grid interfaces for supercapacitors (SCs) are expected to operate with a wide range of input volt...
International audienceRecent developments in power electronics and renewable energy sources have bro...
The decentralization of power generation has become a topic of high interest for industry and academ...
The technical, environmental, and economic incentives have led to the development of a new grid infr...
This paper proposes a high-performance control strategy for dc–dc converters supplying combined load...
Supercapacitors are energy storage devices that can contribute with a fast varying current for the r...
Power electronic converters have been widely used in power system and the stability issues of DC mic...
This paper presents an exact feedback linearization control strategy for voltage source converters (...
Multi-terminal DC Microgrids have great potential for integrating Renewable Energy Sources, Storage ...
International audienceThe current massive integration of constant power loads (CPLs) requires better...
In order to mitigate the influence of negative impedance characteristics on the stability of a DC mi...
The bi-directional DC / DC converter in DC microgrid is a typical nonlinear system which has large v...
This research proposes an enhanced converter for a hybrid energy storage system (HESS) for a multi-i...
The motivation of this work is to model and control a hybrid electric system with multiple power sou...
International audienceEnergy storage devices are frequently employed for dynamic voltage regulation ...
DC grid interfaces for supercapacitors (SCs) are expected to operate with a wide range of input volt...
International audienceRecent developments in power electronics and renewable energy sources have bro...
The decentralization of power generation has become a topic of high interest for industry and academ...
The technical, environmental, and economic incentives have led to the development of a new grid infr...
This paper proposes a high-performance control strategy for dc–dc converters supplying combined load...
Supercapacitors are energy storage devices that can contribute with a fast varying current for the r...
Power electronic converters have been widely used in power system and the stability issues of DC mic...
This paper presents an exact feedback linearization control strategy for voltage source converters (...
Multi-terminal DC Microgrids have great potential for integrating Renewable Energy Sources, Storage ...
International audienceThe current massive integration of constant power loads (CPLs) requires better...
In order to mitigate the influence of negative impedance characteristics on the stability of a DC mi...
The bi-directional DC / DC converter in DC microgrid is a typical nonlinear system which has large v...
This research proposes an enhanced converter for a hybrid energy storage system (HESS) for a multi-i...
The motivation of this work is to model and control a hybrid electric system with multiple power sou...