Design on Arc Plasma Temperature Online Detecting System

Chun Guang Hou; Shi Yu Zhang; Yun Dong Cao; Shu Xin Liu

doi:10.4028/www.scientific.net/AMM.325-326.1427

Paper Titles

Determination of the Real Cutting Edge Wear Contact Area on the Tool-Workpiece Interface in the Light of Cutting Forces Variations
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Development of Online Monitoring System to Vacuum Pressure of Vacuum Arc Extinguish Chamber
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Feasibility Analysis of a Novel Ice Slurry Producing System
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The Performance Analysis of Single Water Droplet Evaporative Supercooled Process for Ice Slurry Production
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Design on Arc Plasma Temperature Online Detecting System
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Fabric Defect Automated Detection Technology
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Analysis on Selection of Water Ring Vacuum Pumps in the Chemical Industry
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The Inertia Force of the Vanes in the Hydraulic Vane Pump with Advanced Hypertrochoid Curve in the Inner Surface of its Stator
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Optimal Operation for Source Parallel Pumping Stations
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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 325-326Design on Arc Plasma Temperature Online Detecting...

Design on Arc Plasma Temperature Online Detecting System

Abstract:

Aiming at the arc plasma characteristics of high voltage circuit breaker, a set of multichannel, high speed, the synchronous detecting system is designed. The space distribution and time variation law of electric arc plasma, specially electric arc shape change law, are well reflected. Based on the ARM + CPLD + SDRAM detecting schemes, the system realized the functions of 64 groups optical fibers sampling, 4M/s sampling rate of every sampling channel, and the synchronous sampling. Through the detailed research and design to EMC, system error analysis, visual interface and database as well as the related interface program of ARM, CPLD, SDRAM and so on, has completed the multichannel, high speed and the real-time synchronized sampling, and mass data memory, computation, analysis, curve and animation demonstration and so on functions. The stability, feasibility and accuracy of the detecting system are proved by the practical application.

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Periodical:

Applied Mechanics and Materials (Volumes 325-326)

Pages:

1427-1430

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.325-326.1427

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Online since:

June 2013

Authors:

Chun Guang Hou, Shi Yu Zhang, Yun Dong Cao, Shu Xin Liu

Keywords:

Arc Plasma Temperature, Circuit Breaker, Online Detecting, Visual Interface

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References

[1] Weaver P.M., McBride I.W. Imaging of Contact and Arc Motion in Current Limiting Circuit Breakers. IC-ECAAA1993: 419~424.

Google Scholar

[2] Y J Shin, K Y Park, K C Chang et al. Development of 800 kV Model Interrupter for UHV Transmission System. ICGDTA1995: 424~427.

Google Scholar

[3] G.C. Damstra, W.F.H. Merck. Application of high speed photography for high current vacuum arcs. ISDEIV1998: 264~267.

Google Scholar

[4] VP. Afanas'ev, A.M. Chaly. Computer-aided reconstruction of the cathode image in high current vacuum arc from the results of high speed photography. ISDEIV2000: 231~234.

DOI: 10.1109/deiv.2000.877292

Google Scholar

[5] Wenkai Shang, Edgar Dullni, Harald Fink, et al. Optical investigations of dynamic vacuum arc mode changes with different axial magnetic field contacts. IEEE Transactions on Plasmas Science, 2003, 31(5): 187~191.

DOI: 10.1109/tps.2003.818426

Google Scholar

[6] T.Uchii, T. Nakamoto, S. Nishiwaki, et al. Optimization of Dead Tank Gas Circuit Breaker Design Based on Quantification of Hot Gas Flow and Dielectric Properties. IEEE Transactions on Power Delivery, 2004, 19(1): 181~185.

DOI: 10.1109/tpwrd.2003.820217

Google Scholar