Title :
fnLCL VSC converter for high power applications
Author :
Jovcic, Dragan ; Lu Zhang ; Hajian, Masood
Author_Institution :
Univ. of Aberdeen, Aberdeen, UK
Abstract :
Summary form only given. This paper studies a LCL (inductor-capacitor-inductor) VSC AC/DC converter concept which can be employed as high power static converter. The converter is designed to have fault current near or below the rated value under the DC side short circuits. This is very important for applications with HVDC and in particular with high power DC transmission networks. This converter is composed of an AC/DC IGBT-based VSC converter and a passive LCL circuit. A transformer is not required since LCL circuit can achieve voltage stepping. The converter parameters are designed to have optimal response during the faults, good controllability and to minimize converter losses. A detailed model is developed on PSCAD platform for a 500MW test system. The simulation confirms capability to independently control active and reactive power and demonstrates favorable fault responses. The transient fault current peaks are not significant and can be overcomed with slight overrating.
Keywords :
AC-DC power convertors; fault currents; short-circuit currents; AC-DC IGBT-based VSC converter; DC side short circuits; HVDC; LCL VSC AC-DC converter; PSCAD platform; active power control; converter loss minimization; fault response; fnLCL VSC converter; high power DC transmission networks; high power static converter; inductor-capacitor-inductor VSC AC-DC converter; passive LCL circuit; power 500 MW; reactive power; reactive power control; transient fault current; voltage stepping; Circuit faults; DC-DC power converters; Educational institutions; Fault currents; Integrated circuit modeling;
Conference_Titel :
Power and Energy Society General Meeting (PES), 2013 IEEE
Conference_Location :
Vancouver, BC
DOI :
10.1109/PESMG.2013.6672669
