Remote Monitoring Technologies of Performances of Battery Charger in Digitalized Transformer Substation

Pei Ying Li; Yu Tian Pan; Yan Qiang Ma

doi:10.4028/www.scientific.net/AMR.662.731

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HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 662Remote Monitoring Technologies of Performances of...

Remote Monitoring Technologies of Performances of Battery Charger in Digitalized Transformer Substation

Abstract:

In the DC power system of the unwatched transformer substation, the battery charger is one of the key devices. The stability of its performances directly affect the stability of DC power system. In the paper, using the computer technologies and the real-time Ethernet technology to communicate with the battery charger monitor to achieve remote monitoring technology of the performances of the battery charger. It can not only remote monitor the operations and fault states of the battery charger on line, but also remote sensing the ripple factor and the stabilized voltage precision when the battery charger is under the states of the floating charge and the constant voltage equalizing charge, at the same time remote sensing the stabilized current precisions when the battery charger is under the stage of constant current equalizing charge, and the characteristics of equalizing current when the battery charger is in operation. So the remote monitoring technology of the performances of the battery charger is very important in the transformer substation.

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Periodical:

Advanced Materials Research (Volume 662)

Pages:

731-735

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.662.731

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Online since:

February 2013

Authors:

Pei Ying Li, Yu Tian Pan, Yan Qiang Ma

Keywords:

DC Battery Charger, Digital Transformer Substation, Remote Monitoring and Control, Remote Sensing

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References

[1] Wenhui Peng, DC Power Supply Back-up System and Intelligent Battery Charger's Design of Power Plant, APPLICATION OF ELECTRONIC TECHNIQUE, Vol. 30, pp.36-38, (2004).

Google Scholar

[2] Xiaomei Lin, The Implementation of DC Monitoring System in Substation, SCIENCE & TECHNOLOGY INFORMATION, No. 01, p.131, Jun. (2009).

Google Scholar

[3] Yanli Zhang, Wanmin Fei, Development of Controller of High Power Intelligent Electric Battery Charger, NORTH CHINA ELECTRIC POWER, No. 5, pp.41-43, May (2001).

Google Scholar

[4] DL/T724-2000, Specification of Operation and Maintenance of Battery DC Power Supply Equipment for Electric Power System, (2000).

Google Scholar

[5] Yi Lei, Chunfang Wang, Yongchao Zhang, Research on High Frequency Resonant Repair System of Lead-acid Battery, POWER ELECTRONICS, Vol. 46, No. 4, pp.29-31, April (2012).

Google Scholar

[6] Pindong Sun, Charging System for Series Connected Battery, JOURNAL OF NANJING NORMAL UNIVERSITY (ENGINEERING AND TECHNOLOGY), Vol. 6, No. 1, pp.12-16, Mar. (2006).

Google Scholar