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[1] Naji AL-Khamisi*, Chen Heng,. Thyristor Controlled Phase Shifter:A Comprehensive Survey [J]. Journal of Southeast University (English Edition), 2001, 17 (1): 85-88. [doi:10.3969/j.issn.1003-7985.2001.01.021]
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Journal of Southeast University (English Edition)[ISSN:1003-7985/CN:32-1325/N]

Volumn:
17
Issue:
2001 1
Page:
85-88
Research Field:
Electrical Engineering
Publishing date:
2001-06-30

Info

Title:
Thyristor Controlled Phase Shifter:A Comprehensive Survey
Author(s):
Naji AL-Khamisi* Chen Heng
Department of Electrical Engineering, Southeast University, Nanjing 210096, China
Keywords:
power system FACTS TCPS phase angle regulation
PACS:
TM74
DOI:
10.3969/j.issn.1003-7985.2001.01.021
Abstract:
Thyristor control phase shifter(TCPS)is one of the new facilities implemented in power network, leading to the development of economically efficient and technically reliable system. This paper introduces the function of TCPS in power system, describes its working principle and structure, and suggests some simple models used in its study and briefly presents the comparison between different types of TCPSs and their applications.

References:

[1] N. G. Hingorani, Flexible AC transmission, IEEE spectrum, pp.40-45, April 1993
[2] R. M. Mathur, and R. S. Basati, A thyristor controlled static phase-shifter for AC power transmission, IEEE Transaction on Power Apparatus and Systems, vol.PAS-100, no.5, pp.2650-2655, May 1981
[3] B. K. Johson, and G.Venkataramanan, A hybrid solid state phase shifter using PWM ac converters, IEEE transaction of power delivery, vol.3, no. 4, pp.1316-1321, October 1998
[4] G. El-Saady, A variable structure static phase shifting transformer for power system stabilization, Electric Power System Research, vol.50, pp. 71-78, 1999
[5] FACTS devices in optimal power flow, IEEE catalogue, no. 98, Ex137, 1998
[6] L. Gyugyi, Unified power flow control concept for flexible AC transmission system, IEEE proceeding-c, vol.139, no.4, pp.323-331, July 1992
[7] J. J. Sanchez, Coordinated control of two facts devices for damping interarea oscillation, IEEE transaction on power system, vol.13, no.3, pp.428-434, May 1998
[8] M. Noroozian, and G. Anderson, Damping of power system oscillation by use of controllable components, IEEE transaction on power delivery, vol.9, no. 4, pp.2046-2054, October 1994
[9] N. G. Hingorani, and L. Gyugyi, Understanding FACTS, concepts and technology of flexible AC transmission system, IEEE press, New York, 2000
[10] M. La Scala, R. Sbrizzai, F. Torelli, and M. Trovato, Enhancement of interconnected power system stability using a control strategy involving static phase shifters, Electrical Power and Energy Systems, vol. 15, no. 6, pp.387-396, 1993
[11] H. Stemmler, and G. Guth, The thyristor-controlled static phase shifter a new tool for power flow control in AC transmission system, Brown Boveri Rev. 3-82, pp.73-78, 1982
[12] K. Xing, and G.L. Kusic, Damping subsynchronous resonance by phase shifter, IEEE transaction on energy conversion, vol.4, no.3, pp.344-350, September 1989
[13] CIGRE, Modeling of power electronic equipment(FACTS)in load flow and stability programs, CIGRE Report TF38-01-08, pp. 66-71
[14] M. R. Iravani, and D. Maratukulam, Review of semiconductor-controlled(static)phase shifters for power system application, IEEE Transactions on Power Systems, vol.9, no.4, pp.1833-1839, November 1994
[15] M. R. Iravani, P.L. Dandeno, and D. Maratukulam, Applications of static phase shifters in power system, IEEE Transactions on Power Delivery, vol.9, no.3, pp.1600-1608, July 1994

Memo

Memo:
* Born in 1957, male, graduate, Iraq.
Last Update: 2001-03-20