Vahid Mortezapour scite author profile

This study proposes a novel combined primary and secondary control approach for direct current microgrids, specifically in islanded mode. In primary control, this approach establishes an appropriate load power sharing between the distributed energy resources based on their rated power. Simultaneously, it considers the load voltage deviation and provides satisfactory voltage regulation in the secondary control loop. The proposed primary control is based on an efficient droop mechanism that only deploys the local variable measurements, so as to overcome the side effects caused by communication delays. In the case of secondary control, two different methods are devised. In the first, low bandwidth communication links are used to establish the minimum required data transfer between the converters. The effect of communication delay is further explored. The second method excludes any communication link and only uses local variables. Accordingly, a self-sufficient control loop is devised without any communication requirement. The proposed control notions are investigated in MATLAB/Simulink platform to highlight system performance. The results demonstrate that both proposed approaches can effectively compensate for the voltage deviation due to the primary control task. Detailed comparisons of the two methods are also provided.

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Stator current calculation of DFIG under asymmetrical faults by considering stator resistance and slip frequency

Zohoori

Moghani

Fathi

et al. 2011

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Vahid Mortezapour

Hybrid AC/DC microgrids: A generalized approach for autonomous droop-based primary control in islanded operations

A generalized droop control approach for islanded DC microgrids hosting parallel-connected DERs

Adaptive primary droop control for islanded operation of hybrid AC–DC MGs

An optimized crowbar for DFIG with AHP algorithm under single phase fault

Transient response of doubly fed induction generator under voltage sag using an accurate model

Analytical calculation of critical clearance time of doubly fed induction generator

A new hybrid control technique for operation of DC microgrid under islanded operating mode

Stator current calculation of DFIG under asymmetrical faults by considering stator resistance and slip frequency

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