Research on the Influence to Power System Protection with Harmonic of Power Electronic Devices

Abstract:

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With the development of science and technology, higher and higher quality requirements were needed by the electrical consumers about the power energy in power supplying and distributing. For this objective, many kinds of power electronic equipments are applied in power supply systems and distribution systems in order to improve the system running stability with their rapid response operation characteristics. But at the same time, the power electronic equipments may generate some hidden dangers that can not be overlooked to the system, particularly to the reliability of protection.

Info:

Periodical:

Advanced Materials Research (Volumes 317-319)

Edited by:

Xin Chen

Pages:

1263-1266

DOI:

10.4028/www.scientific.net/AMR.317-319.1263

Citation:

X. S. Zhou et al., "Research on the Influence to Power System Protection with Harmonic of Power Electronic Devices", Advanced Materials Research, Vols. 317-319, pp. 1263-1266, 2011

Online since:

August 2011

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Price:

$35.00

[1] Zhao Liangbing, Ma Weixin. Modern Power Electronics and the applications to the Power Systems [J] Power System Technology, 1995, 19(7)67-70.

[2] Chen Jiamei, Bao Xiaohui. Electrical Power Supply &Distribution System and the electrical equipments [M] Beijing: China Water Power Press. (2004).

[3] Wang Xiaoli, Electrical Power Supply &Distribution System [M] Beijing: Mechanic industry Press. (2004).

[4] Liu Yi etc., The applications of PSD311 chip in Current Protection Device of Microcomputer. [J], Liaoning Institute of Technology journal, 1999, 5(19):22-24.

[5] Yin Qiyun, the analysis of several problems about the running of the present relaying protection. [J], Automation of Electric Systems. 1999, 3(23): 1-3.

[6] Dong Litian, the blueprint of improving the sensitivity of Microcomputer Current Protection. [J], High Voltage Apparatus, 2002, 1(38): 55-56.

[7] Zeng Genghui, Liu Wei. Discussion on the on-line setting system of the relaying protection, 2004, 17(32): 38-42.

[8] Shang Liqun. The applications of singlechip in Staged current protection. [J], Xi an Mining Industry Institute journal. 1996, 3(16): 264-270.

[9] Liu Yuan, Zhou Youqing. DSP-based multi-function microprocessor-based protection of power system test device designed [J], relays, 2005, 6 (33) : 56-59.

[10] Liu Fei. Small programmable logic controller based on (plc) to achieve the grid-current protection [J], relays, 2004, 27(32): 50-52.

[11] Fang Xinyan, Zhong Cong. Adaptive artificial neural network based current protection [J], relays, 2000, 5 (28), 16-20.

[12] Huang Xiaoling, Cao Tiejun. Expert System Application in the Relay Setting[J]-31 Northeast Electric PowerTechnology, 1997, 3: 27.

[13] Dingshu Wen, Zhang Chenxue. Half-wave Fourier Algorithm[J], PowerSystems, 1999, 5(23): 18-20.

[14] LI Zhe, Zhang Bao-hui. A principle of using sequence components algorithm to improve the sensitivity of current protection[J], PowerSystems, 2000, 10: 26-69.

[15] An Yanqiu, Gao Houlei. Positive sequence fault component and its relay protection[J], Power System Technology, 2003, 4(15): 76-78.

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