Title :
Feedforward decoupling control method in grid-interfaced inverter
Author :
Pham, D.H. ; Hunter, G. ; Li Li ; Jianguo Zhu
Author_Institution :
Centre for Electr. Machines & Power Electron., Univ. of Technol., Sydney, NSW, Australia
fDate :
Sept. 29 2013-Oct. 3 2013
Abstract :
Recently, microgrid has been studied and applied widely all over the world. More and more experimental microgrids are being connected to the utility grid. This paper presents an improvement in the real and reactive power control of three-phase grid-interfaced inverter for microgrid applications. Based on the traditional PI feedback current control, the desirable values of P and Q can be achieved by controlling the currents in d-q stationary frame. Moreover, the feedforward control method also brings some advantages to the systems such as higher reliability and enhanced stability. One of the most important improvements is to decouple the real and reactive power, i.e. P and Q are controlled separately. In this paper, the controller with feedforward algorithm has been simulated and shows some promiscuous results.
Keywords :
PI control; distributed power generation; electric current control; invertors; power distribution control; power generation control; reactive power control; PI feedback current control; d-q stationary frame; feedforward control method; feedforward decoupling control method; reactive power control; real power control; three phase grid interfaced inverter; Adaptation models; Current control; Energy storage; Europe; Fuels; Inverters; Load modeling; decouple; feedforward; grid-interfaced inverter; microgrid; three-phase;
Conference_Titel :
Power Engineering Conference (AUPEC), 2013 Australasian Universities
Conference_Location :
Hobart, TAS
DOI :
10.1109/AUPEC.2013.6725404
