Requirements on the power quality of AC sources are becoming more stringent as more voltage-sensitive equipments are being used. Among many power quality issues, voltage unbalance and voltage sags are two serious ones. This paper proposes an active voltage regulator, which is composed of a voltage source fed inverter (VSI) coupled in series with the supply through series transformers, to compensate the voltage unbalance and sags. In order to get the compensating voltage reference, a new approach to calculate the fundamental-positive sequence component of the source voltage is provided. The proposed method needs no synchronization hardware and can perform the calculation of fundamental-positive sequence component almost in real time. The regulator based on the proposed method works well under such conditions as source voltage sag and unbalance and has a good dynamic performance, which has been validated by experimental results.
[1]
Alexandre Campos,et al.
Analysis and design of a series-connected PWM voltage regulator for single-phase AC sources
,
1996
.
[2]
G. Joos,et al.
Analysis and design of a series connected PWM voltage regulator for single phase AC sources
,
1992,
[Proceedings] APEC '92 Seventh Annual Applied Power Electronics Conference and Exposition.
[3]
Hirofumi Akagi,et al.
A new power line conditioner for harmonic compensation in power systems
,
1995
.
[4]
Alan K. Wallace,et al.
An improved PWM technique for AC choppers
,
1989
.
[5]
Hirofumi Akagi,et al.
New trends in active filters for power conditioning
,
1996
.
[6]
S. A. Hamed.
Steady-state modeling, analysis, and performance of transistor-controlled AC power conditioning systems
,
1990
.