Distance Protection Application Based on Wavelet Transform and Traveling Wave Ranging

Peng Peng Kang; Xi Fang Zhu

doi:10.4028/www.scientific.net/AMM.150.40

Paper Titles

Calculation of Leakage Coefficient for Hybrid Magnetic Bearing
p.17

Control Parameter Tuning of Magnetic Bearing PID Controller Based on Expansion Coefficient Critical Proportion
p.24

Decoupling Control for Bearingless Synchronous Reluctance Motor Based on Neural Networks Inverse
p.30

Direct Torque Control of Bearingless Synchronous Reluctance Motor
p.36

Distance Protection Application Based on Wavelet Transform and Traveling Wave Ranging
p.40

Distributed Remote Testing Research Based on Self-Union Technology
p.45

Effects of Rotational Inertia and Bearing Force on Stability of Permanent Maglev Rotator
p.50

Influence of Magnetic Bearing Stiffness on Rotor in Wind Turbine Generator
p.57

Influence of Suspension Mass Variation on Dynamic Characteristic of Magnetic Suspension System
p.63

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 150Distance Protection Application Based on Wavelet...

Distance Protection Application Based on Wavelet Transform and Traveling Wave Ranging

Abstract:

This paper describes the wavelet transform theory, and traveling wave theory. When the power system transmission line fault occurs, the fault signal generated by sampling and analysis, and use a method of one-end fault distance measurement in transmission line. Finally the article gives the ranging devices’ hardware and software design.

You might also be interested in these eBooks

Research Progress of Magnetic Levitating Bearings and Some Advanced Technology

View Preview

Info:

Periodical:

Applied Mechanics and Materials (Volume 150)

Pages:

40-44

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.150.40

Citation:

Cite this paper

Online since:

January 2012

Authors:

Peng Peng Kang, Xi Fang Zhu

Keywords:

Distance Protection, Fault Ranging, Fault Signal, Travelling Wave, Wavelet Transform (WT)

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

References

[1] Qiao Feng, Yu Fashang, Zhang Yuhua. The study of fault range finding for transmission Line Based on Traveling Wave Method. Coal Mine Electrical. 2004(5).

Google Scholar

[2] Xu Qingshan, L.L.L. AI. Novel and comprehensive countermeasures for single terminal fault location of transmission lines. Automation of electric power systems. 2006(8).

Google Scholar

[3] MAKAMING P, BUNJONGJIT S, KUNAKORN A, etal. Fault diagnosis in transmission lines using wavelet transform analysis/ Proceedings of IEEE/PES Transmission and Distribution Conference Exposition: Asia Pacific: Vol 3, Oct 6-10, 2002, Yokohama, Japan. Piscataway, NJ, USA: IEEE: 2002: 2246-2250.

DOI: 10.1109/tdc.2002.1177813

Google Scholar

[4] JANJA, FANPL, CHENCS, etal. A fault detection and faulted-phase selection approach for transmission lines with Hear wavelet transform/ proceeding of IEEE/ PES Transmission and Distribution Conference and Exposition: Vol, setp 7-12, 2003, Dallas, TX, USA. Piscataway, NJ, USA: IEEE, 2003: 285-289.

DOI: 10.1109/tdc.2003.1335236

Google Scholar

[5] Ge Yaozhong. New types of protective relaying and fault location their theory and technigues [M]. Xi'an: Xi'an Jiaotong University Press. (1996).

Google Scholar

[6] Zhou Yiming, Li Xiaqing: Journal of Beijing Institute of Petro-chemical Technology, 3 (2005) 13.

Google Scholar

[7] Dong Xinli, Ge Yaozhong, Dong Xinzhou. Wavelet transform based distance protection scheme with traveling wave fault location. Power System Technology. 2001(7).

Google Scholar

[8] Zhou Yiming, Li Xiaqing: Electric Engineering, 8 (2004) 5-6.

Google Scholar