Comparison of Fundamental Frequency Model and PWM Based Model of UPFC
Among all FACTS devices, the unified power flow
controller (UPFC) is considered to be the most versatile device.
This is due to its capability to control all the transmission system
parameters (impedance, voltage magnitude, and phase angle). With
the growing interest in UPFC, the attention to develop a mathematical
model has increased. Several models were introduced for UPFC in
literature for different type of studies in power systems. In this paper
a novel comparison study between two dynamic models of UPFC
with their proposed control strategies.
[1] C. A. Canizares, E. Uzunovic, and J. Reeve, "Transient stability and
power flow model of the unified power flow controller for various control
strategies,” International journal of energy technology and policy, vol. 4,
no. 3, pp. 349–378, 2006.
[2] L. Gyugyi, "Unified power-flow control concept for flexible ac
transmission systems,” in IEE Proceedings C (Generation, Transmission
and Distribution), vol. 139, no. 4. IET, 1992, pp. 323–331.
[3] A. Nabavi-Niaki and M. Iravani, "Steady-state and dynamic models of
unified power flow controller (upfc) for power system studies,” Power
Systems, IEEE Transactions on, vol. 11, no. 4, pp. 1937–1943, Nov
1996.
[4] K. R. Padiyar and A. Kulkarni, "Control design and simulation of unified
power flow controller,” Power Delivery, IEEE Transactions on, vol. 13,
no. 4, pp. 1348–1354, Oct 1998.
[5] K. Smith, L. Ran, and J. Penman, "Dynamic modelling of a unified
power flow controller,” Generation, Transmission and Distribution, IEE
Proceedings-, vol. 144, no. 1, pp. 7–12, Jan 1997.
[6] K. M. Son and R. H. Lasseter, "A newton-type current injection model
of upfc for studying low-frequency oscillations,” Power Delivery, IEEE
Transactions on, vol. 19, no. 2, pp. 694–701, 2004.
[7] E. Uzunovic, C. A. Canizares, and J. Reeve, "Emtp studies of upfc power
oscillation damping,” in Proceedings of the North American Power
Symposium (NAPS), 1999, pp. 405–410.
[8] H. Wang, M. Jazaeri, and Y. Cao, "Analysis of control conflict
between upfc multiple control functions and their interaction indicator,”
International J. of Control, Automation, and System, vol. 3, no. 2, pp.
315–321, 2005.
[9] H. Wang and Q. Wu, "Multivariable design of a multiple-functional
unified power flow controller,” in Power Engineering Society Summer
Meeting, 2000. IEEE, vol. 3, 2000, pp. 1363–1368 vol. 3.
[10] C. Yam and M. Haque, "A {SVD} based controller of {UPFC} for
power flow control,” Electric Power Systems Research, vol. 70, no. 1,
pp. 76 – 84, 2004. (Online). Available: http://www.sciencedirect.com/
science/article/pii/S0378779603002931
[1] C. A. Canizares, E. Uzunovic, and J. Reeve, "Transient stability and
power flow model of the unified power flow controller for various control
strategies,” International journal of energy technology and policy, vol. 4,
no. 3, pp. 349–378, 2006.
[2] L. Gyugyi, "Unified power-flow control concept for flexible ac
transmission systems,” in IEE Proceedings C (Generation, Transmission
and Distribution), vol. 139, no. 4. IET, 1992, pp. 323–331.
[3] A. Nabavi-Niaki and M. Iravani, "Steady-state and dynamic models of
unified power flow controller (upfc) for power system studies,” Power
Systems, IEEE Transactions on, vol. 11, no. 4, pp. 1937–1943, Nov
1996.
[4] K. R. Padiyar and A. Kulkarni, "Control design and simulation of unified
power flow controller,” Power Delivery, IEEE Transactions on, vol. 13,
no. 4, pp. 1348–1354, Oct 1998.
[5] K. Smith, L. Ran, and J. Penman, "Dynamic modelling of a unified
power flow controller,” Generation, Transmission and Distribution, IEE
Proceedings-, vol. 144, no. 1, pp. 7–12, Jan 1997.
[6] K. M. Son and R. H. Lasseter, "A newton-type current injection model
of upfc for studying low-frequency oscillations,” Power Delivery, IEEE
Transactions on, vol. 19, no. 2, pp. 694–701, 2004.
[7] E. Uzunovic, C. A. Canizares, and J. Reeve, "Emtp studies of upfc power
oscillation damping,” in Proceedings of the North American Power
Symposium (NAPS), 1999, pp. 405–410.
[8] H. Wang, M. Jazaeri, and Y. Cao, "Analysis of control conflict
between upfc multiple control functions and their interaction indicator,”
International J. of Control, Automation, and System, vol. 3, no. 2, pp.
315–321, 2005.
[9] H. Wang and Q. Wu, "Multivariable design of a multiple-functional
unified power flow controller,” in Power Engineering Society Summer
Meeting, 2000. IEEE, vol. 3, 2000, pp. 1363–1368 vol. 3.
[10] C. Yam and M. Haque, "A {SVD} based controller of {UPFC} for
power flow control,” Electric Power Systems Research, vol. 70, no. 1,
pp. 76 – 84, 2004. (Online). Available: http://www.sciencedirect.com/
science/article/pii/S0378779603002931
@article{"International Journal of Electrical, Electronic and Communication Sciences:68120", author = "S.A. Al-Qallaf and S.A. Al-Mawsawi and A. Haider", title = "Comparison of Fundamental Frequency Model and PWM Based Model of UPFC", abstract = "Among all FACTS devices, the unified power flow
controller (UPFC) is considered to be the most versatile device.
This is due to its capability to control all the transmission system
parameters (impedance, voltage magnitude, and phase angle). With
the growing interest in UPFC, the attention to develop a mathematical
model has increased. Several models were introduced for UPFC in
literature for different type of studies in power systems. In this paper
a novel comparison study between two dynamic models of UPFC
with their proposed control strategies.
", keywords = "FACTS, UPFC, Dynamic Modeling, PWM,
Fundamental Frequency.", volume = "8", number = "10", pages = "1592-4", }
