Adaptive Input-Output Feedback Linearization Control for Islanded Inverter-Based Microgrids

• Published in: International journal of industrial electronics, control and optimization (Online) Vol. 6; no. 3; pp. 183 - 192
• Main Author: Navid Abjadi
• Format: Journal Article
• Language: English
• Published: University of Sistan and Baluchestan 01.09.2023
• Subjects: adaptive control; distributed generation; feedback linearization; master-slave strategy; microgrid
• ISSN: 2645-3517; 2645-3568
• DOI: 10.22111/ieco.2023.44787.1465

Due to the growth of renewable energies and the need for sustainable electrical energy, AC microgrids (MGs) have been the subject of intense research. Medium voltage MGs will soon have a special place in the power industry. This paper uses a new and effective control scheme for islanded inverter-based medium voltage MGs using the master-slave (MS) technique. The controllers only need local measurements. The designed controls are based on adaptive input-output feedback linearization control (AIOFLC). These controls have a high-performance response; and are robust against some uncertainties and disturbances. The use of the designed control scheme makes the output voltage of distributed generation (DG) sources have negligible harmonics. Besides, the generated voltage and active/reactive powers track their references effectively. The model of the inverter-based DGs is considered in a stationary reference frame, and there is no need for any coordinate frame transformation. The control method presented in this paper can be used for MGs with any number of inverter-based DGs and parallel inverters. The effectiveness of the proposed control scheme is evaluated by simulation in SIMULINK/MATLAB environment and compared with that of feedback linearization control (FLC) and conventional sliding mode control (CSMC).