Title :
Application of zero-voltage-switching to a DC voltage-controlled static VAr compensator using quad-series voltage-source inverters
Author :
Tominaga, Shinji ; Fujita, Hideaki ; Akagi, Hirofumi
Author_Institution :
Dept. of Electr. Eng., Okayama Univ., Japan
Abstract :
This paper discusses the potential of applying the zero-voltage-switching technique to a DC voltage-controlled static VAr compensator. The main circuit of the static VAr compensator (SVC) consists of quad-series voltage-source six-step inverters and four three-phase transformers. The SVC is characterized by a “commutation capacitor” connected in parallel with each switching device, without any additional active or passive element. The commutation capacitor plays an essential role in achieving zero-voltage-switching. Experimental results obtained From a small-rated laboratory model of 10 kVA verify the operating principle and effectiveness of the zero-voltage-switched SVC proposed in this paper. The zero-voltage-switching enables reduction of dv/dt across each switching device, thus resulting in reduced EMI and switching losses
Keywords :
DC-AC power convertors; commutation; electromagnetic interference; interference suppression; invertors; losses; static VAr compensators; switching circuits; transformers; voltage control; DC voltage-controlled static VAr compensator; EMI reduction; commutation capacitor; dv/dt reduction; quad-series voltage-source inverters; quad-series voltage-source six-step inverters; switching losses reduction; three-phase transformers; zero-voltage-switching; Circuits; Electromagnetic interference; Phase transformers; Power system reliability; Pulse width modulation inverters; Reactive power control; Static VAr compensators; Switches; Switching loss; Voltage control;
Conference_Titel :
Power Electronics Specialists Conference, 1996. PESC '96 Record., 27th Annual IEEE
Conference_Location :
Baveno
Print_ISBN :
0-7803-3500-7
DOI :
10.1109/PESC.1996.548624
