Title :
Topologies for VSC transmission
Author :
Andersen, B.R. ; Xu, L. ; Horton, P.J. ; Cartwright, P
Author_Institution :
Alstom T&D Ltd. Power Electron. Syst., Stafford, UK
fDate :
6/1/2002 12:00:00 AM
Abstract :
The increasing rating and improved performance of self-commutated semiconductor devices have made DC power transmission based on voltage-sourced converters possible. This technology is called VSC transmission. The main components in a DC scheme are depicted and their functions explained. The features of three main categories of converter topology suitable for DC transmission are described. Three specific converters, namely two-level, three-level diode-clamped and four-level floating-capacitor converters for a 300 MW scheme, are compared in terms Of costs, DC capacitor volume, commutation inductance and footprint. The floating capacitor converter is shown to yield the lowest system cost.
Keywords :
HVDC power convertors; HVDC power transmission; capacitors; commutation; power semiconductor diodes; 300 MW; DC capacitor volume; DC power transmission; HVDC; VSC transmission; commutation inductance; footprint; four-level floating-capacitor converters; self-commutated semiconductor devices; three-level diode-clamped converters; two-level converters; voltage-sourced converters;
Journal_Title :
Power Engineering Journal
DOI :
10.1049/pe:20020307
