The static condenser (STATCON) is a shunt connected voltage source converter using self commutating devices like GTOs. The principle of operation is similar to that of a synchronous condenser. This paper is concerned with the application of the STATCON for the reactive power compensation of a long transmission line by regulating the voltage at its midpoint. The design of the voltage controller and the analysis of its dynamic behaviour using eigenvalue analysis and digital simulation is presented. An important observation is that the plant transfer function is generally of the nonminimum phase type. This precludes the use of large gains in a PI controller as there is a risk of instability of an oscillatory mode of frequency between 200-300 rad/s. Eigenvalue analysis using a linearized model was carried out to design a compensator in a cascade with an integral controller to overcome this problem.
[1]
Narain G. Hingorani,et al.
FACTS-flexible AC transmission system
,
1991
.
[2]
Y. Sumi,et al.
New Static Var Control Using Force-Commutated Inverters
,
1981,
IEEE Transactions on Power Apparatus and Systems.
[3]
Laszlo Gyugyi.
Reactive Power Generation and Control by Thyristor Circuits
,
1979
.
[4]
M. B. Brennen,et al.
Vector analysis and control of advanced static VAr compensators
,
1991
.
[5]
E. J. Stacey,et al.
Advanced state VAr generator employing GTO thyristors
,
1988
.
[6]
T. W. Cease,et al.
Development of a /spl plusmn/100 MVAr static condenser for voltage control of transmission systems
,
1995
.