Title :
Direct-coupled multilevel cascaded series VAr compensators
Author :
Joós, Géza ; Huang, Xiaogang ; Ooi, Boon-Teck
Author_Institution :
Dept. of Electr. & Comput. Eng., Concordia Univ., Montreal, Que., Canada
Abstract :
Series VAr compensators based on force-commutated static power converters are proving to be a viable alternative to shunt compensators as a means of enhancing power transmission and distribution capability. This paper proposes a converter structure, based on a multilevel cascade of single-phase converters, which can be coupled to the transmission system without transformers. The individual converters are switching at very low frequencies, resulting in high efficiency, and are fed from independent self-controlled DC capacitor buses. Advantages of the proposed series compensator include low injected voltage harmonic distortion and fast response to changes in the compensation level. Pattern generation options are presented. Gating and control schemes are discussed. Simulation results are verified experimentally
Keywords :
PWM power convertors; commutation; distribution networks; harmonic distortion; power transmission; static VAr compensators; PWM power converters; compensation level; control scheme; direct-coupled series VAr compensators; force-commutated static power converters; gating scheme; high efficiency; low injected voltage harmonic distortion; multilevel cascaded series VAr compensators; pattern generation options; power distribution capability enhancement; power transmission capability enhancement; reactive power; self-controlled DC capacitor buses; single-phase converters; transmission system; Capacitors; Couplings; Frequency conversion; Harmonic distortion; Low voltage; Power transmission; Reactive power; Static power converters; Switching converters; Transformers;
Journal_Title :
Industry Applications, IEEE Transactions on
