Abstract
This research study devises a new dynamic output feedback cooperative control scheme relying on the Negative Imaginary (NI) toolkit to address the secondary voltage synchronisation issue of the inverter-based Distributed Generating
Units (DGUs) that constitute an AC microgrid. Each DGU can be modelled by a nonlinear descriptor system, which, upon being feedback-linearised, gives a double integrator map from the auxiliary input (qi) to the d-component of the output voltage (vodi ). As a double integrator dynamics intrinsically exhibits
the NI property, the feedback-linearised DGUs connected via a network manifest the multi-agent NI property. Therefore, a distributed Strictly NI (SNI) control law can achieve the desired voltage synchronisation among the DGUs of a microgrid. The proof of consensus invokes the Eigenvalue Loci technique, for which a complicated Lyapunov theory-based derivation is not necessary. The scheme is resilient to bounded disturbances and variation in the interaction topology and can handle plug-andplay operations. The paper also examines the performance of various first-order and second-order distributed SNI controllers in achieving the desired voltage consensus.
Units (DGUs) that constitute an AC microgrid. Each DGU can be modelled by a nonlinear descriptor system, which, upon being feedback-linearised, gives a double integrator map from the auxiliary input (qi) to the d-component of the output voltage (vodi ). As a double integrator dynamics intrinsically exhibits
the NI property, the feedback-linearised DGUs connected via a network manifest the multi-agent NI property. Therefore, a distributed Strictly NI (SNI) control law can achieve the desired voltage synchronisation among the DGUs of a microgrid. The proof of consensus invokes the Eigenvalue Loci technique, for which a complicated Lyapunov theory-based derivation is not necessary. The scheme is resilient to bounded disturbances and variation in the interaction topology and can handle plug-andplay operations. The paper also examines the performance of various first-order and second-order distributed SNI controllers in achieving the desired voltage consensus.
| Original language | English |
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| Title of host publication | Proceedings of the 23rd European Control Conference, Thessaloniki, Greece, June 2025 |
| Publication status | Accepted/In press - 1 Mar 2025 |