Title :
Detailed analysis of generator emulation control impedance network of microgrid inverters
Author :
Maknouninejad, A. ; Kutkut, N. ; Batarseh, I. ; Qu, Z.
Abstract :
Microgrids are self contained, small-scale versions of the centralized electric power system, where power is produced, transmitted, consumed, and managed locally. They can operate as part of a host electrical power system (grid tie) or as stand alone when the main power grid is not available. Achieving a smooth mode transition from grid tie to standalone operation is an important aspect of microgrid operation. The concept of Generator Emulation Control (GEC) has already been proposed as a suitable control strategy for inverters, which offers a seamless and fast transient response especially during mode changes. This paper will present a detailed analysis of the GEC control scheme.
Keywords :
distributed power generation; invertors; power control; centralized electric power system; generator emulation control impedance network; microgrid inverters; smooth mode transition; transient response; Artificial neural networks; Indexes; Power electronics; Transient analysis; Smart grid; distributed Generators (DG); inverter control; microgrid; renewable energy; seamless mode transition;
Conference_Titel :
Industry Applications Society Annual Meeting (IAS), 2011 IEEE
Conference_Location :
Orlando, FL
Print_ISBN :
978-1-4244-9498-9
DOI :
10.1109/IAS.2011.6074431
