Title :
Control Strategy for Three-/Four-Wire-Inverter-Based Distributed Generation
Author :
Sinsukthavorn, Worpong ; Ortjohann, Egon ; Mohd, Alaa ; Hamsic, Nedzad ; Morton, Danny
Author_Institution :
South Westphalia Univ. of Appl. Sci., Soest, Germany
Abstract :
Future power distribution requires advanced expandability and flexibility in the integration of distributed energy resources which normally require interfacing units to provide the necessary crossing point to the grid. The core of these interfacing units is power-electronics grid front end, namely, inverters. The inverter is the primary interface that provides not only their principal interfacing control function but also various utility functions. This paper presents the flexible control methodology of inverters as grid front end using an isochronous control function which is used by synchronous generators in conventional power systems to provide load sharing and control.
Keywords :
distributed power generation; energy resources; invertors; load regulation; power distribution control; power electronics; power grids; synchronous generators; distributed energy resource integration; interfacing unit; inverters flexible control methodology; isochronous control function; load control; load sharing; power system; power-electronics grid front end; principal interfacing control function; synchronous generator; three-four-wire-inverter-based distributed generation; utility function; Inverters; Phase locked loops; Q factor; Smart grids; Support vector machines; Voltage control; Distributed energy resources (DERs); distributed generation (DG); inverter; isochronous control; load sharing;
Journal_Title :
Industrial Electronics, IEEE Transactions on
DOI :
10.1109/TIE.2012.2188871
