This paper proposes two control strategies for the islanding operation of hybrid microgrid
with a high penetration of wind driven cage induction generators. The control strategies
combine approaches traditionally applied to self-excited cage induction generators with
recent approaches for microgrid's islanding operation. The proposed control strategies aim
to facilitate the higher integration of cage induction generators in microgrids. The first
strategy is based on direct frequency and reactive power control while the second one uses …

This paper proposes two control strategies for the islanding operation of hybrid microgrid
with a high penetration of wind driven cage induction generators. The control strategies
combine approaches traditionally applied to self-excited cage induction generators with
recent approaches for microgrid's islanding operation. The proposed control strategies aim
to facilitate the higher integration of cage induction generators in microgrids. The first
strategy is based on direct frequency and reactive power control while the second one uses …