[1] R. Arnold, “Solutions to the Power Quality
Problem”, Power Engineering Journal, 2001,
15(2): 65-73.
[2] R. Lamedica, G. Esposito, “A Survey on
Power Quality Cost in Industrial Loads”, IEEE
Winter power meeting, 2001,Vol:2, pp. 938-943.
[3] M.M. Marcos, J.C. Gomez, “Electric power
quality-the strong connection with power
electronics”, IEEE Power and Energy Magazine,
2003, 1(5): 18-25.
[4] B. Singh, K. Al-Haddad, A. Chandra, “A
Review of Active Power Filters for Power
Quality Improvement”, IEEE Trans on Industrial
Electronics, 1999, 45(5):960-971.
[5] Wang Qun, Yao Weizheng, Liu Jinjun,
“Harmonics Source and Compensation
Characteristics of Active Power Filters”,
Proceedings of the CSEE, 2001, 21(2):16- 20.
[6] Wu Weimin, Tonf Liqing, Qian Zaoming, “A
Research on New Control Strategy for Series
type Active Power Filter”, Proceedings of the
CSEE, 2005, 25(3):38- 43.
[7] A. Chandra, B. Singh, B.N. Singh, K. AIHaddab,
”An Improved Control Algorithm of
Shunt Active Filter for Voltage Regulation,
Harmonic Elimination, Power Factor Correction,
and Balancing of Nonlinear Loads”, IEEE Trans.
on Power Electronics, 2000, 15(3):495-507.
[8] B.A. Renz, A. Keri, A. Mehraban, “AEP
Unified Power Flow Controller Perfor- mance”,
IEEE Trans. Power Delivery, 1999, 14(9):1374-
1381.
[9] Farrukh Kamron, “Combined Deadbeat
Control of Series-parallel Converter
Combination Used as a Universal Power Filter”,
IEEE Power Electronics Specialists Conf., 1995,
pp. 196-201.
[10] M.T. Haque, T. Ise, S.H. Hosseini, “A
Novel Control Strategy for Unified Power
Quality Conditioner”, IEEE Power Electronics
Specialists Conf., June, 2002, Vol:1, pp. 94-98.
[11] B. Han, B. Bae, S. Baek, “New
Configuration of UPQC for Medium- Voltage
Application”, IEEE Trans. on power delivery,
2005.
[12] A. Elnady, M.M.A. Salama, “New Functionalities
of the Unified Power Quality
Conditioner”, Transmission and Distribution
Conference and Exposition, 2001 IEEE/PES,
2001, Vol: 1, pp. 415-420.
Double-Source Alternate Backup Type Unifıed Power Quality Conditioner
Haibo LIU, Chengxiong MAO, Jiming LU, Dan WANG
894
Liu HAIBO received his B.S degrees in electrical
engineering from Navy engineering University in
1998, and is pursuing the Ph.D. degree in Huazhong
University of Science & Technology (HUST). His
interest is focused on the applications of high power
electronic technology to power system.
Mao CHENGXIONG was born in Hubei, China, in
1964. He received his B.S., M.S. and Ph.D. degrees in
electrical engineering, from HUST, in 1984, 1987 and
1991 respectively. He was a visiting scholar in
University of Calgary, Canada, from Jan. 1989 to Jan.
1990 and in Queen's University of Belfast from Dec.
1994 to Dec. 1995 respectively. He was doing
researches in Technische Universitaet Berlin from
April 1996 to April 1997 under the support of
Humboldt Foundation. Presently, he is a professor of
HUST. His fields of interest are power system
operation and control, the excitation control of
synchronous generator and applications of high power
electronic technology to power system.
Thank you for copying data from http://www.arastirmax.com
