An online approach to evaluate and monitor the stability margins of dc microgrid power converters is presented in this paper. The discussed online stability monitoring technique is based on the Middlebrook's loop-gain measurement technique, adapted to the digitally controlled power converters. In this approach, a perturbation is injected into a specific digital control loop of the converter and after measuring the loop gain, its crossover frequency and phase margin are continuously evaluated and monitored. The complete analytical derivation of the model, as well as detailed design aspects, are reported. In addition, the presence of multiple power converters connected to the same dc bus, all having the stability monitoring unit, is also inve...
In this paper, a converter-based DC microgrid is studied. By considering the impact of each componen...
This paper extensively analyzes the operation limits, system stability and disturbance rejection cap...
Direct current (DC) microgrids (MGs) are an emergent option to satisfy new demands for power quality...
Recently, there has been an increasing interest towards grouping several power resources together wi...
This paper presents the application of an online stability monitoring technique (MT) for droop contr...
Electrified transportation and integration of renewable energy in the electric power grid requires t...
This paper presents a review of control strategies, stability analysis and stabilization techniques ...
Power systems are going through a paradigm shift from electric machine-based to power electronics-ba...
Power DC-to-DC converters are critical to AC and DC microgrids. Among the DC-to-DC power converters,...
Direct current (DC) distribution is one of the most important enabling technologies for the future d...
In grid-connected mode, the grid normally absorbs all the power generated by each inverter in a micr...
Possible dynamic interactions among multiple dc microgrid power converters that are connected to a c...
Direct-current (dc) microgrids interconnect dc loads, distributed renewable energy sources, and ener...
The dc distribution systems or dc microgrids are known to be best suited for integration of renewabl...
DC microgrids (MGs), as an alternative option, have attracted increasing interest in recent years du...
In this paper, a converter-based DC microgrid is studied. By considering the impact of each componen...
This paper extensively analyzes the operation limits, system stability and disturbance rejection cap...
Direct current (DC) microgrids (MGs) are an emergent option to satisfy new demands for power quality...
Recently, there has been an increasing interest towards grouping several power resources together wi...
This paper presents the application of an online stability monitoring technique (MT) for droop contr...
Electrified transportation and integration of renewable energy in the electric power grid requires t...
This paper presents a review of control strategies, stability analysis and stabilization techniques ...
Power systems are going through a paradigm shift from electric machine-based to power electronics-ba...
Power DC-to-DC converters are critical to AC and DC microgrids. Among the DC-to-DC power converters,...
Direct current (DC) distribution is one of the most important enabling technologies for the future d...
In grid-connected mode, the grid normally absorbs all the power generated by each inverter in a micr...
Possible dynamic interactions among multiple dc microgrid power converters that are connected to a c...
Direct-current (dc) microgrids interconnect dc loads, distributed renewable energy sources, and ener...
The dc distribution systems or dc microgrids are known to be best suited for integration of renewabl...
DC microgrids (MGs), as an alternative option, have attracted increasing interest in recent years du...
In this paper, a converter-based DC microgrid is studied. By considering the impact of each componen...
This paper extensively analyzes the operation limits, system stability and disturbance rejection cap...
Direct current (DC) microgrids (MGs) are an emergent option to satisfy new demands for power quality...