Design of Armored Vehicles Lead-Acid Battery State Monitoring System

Gang Li; Yong Cheng Xie; Guang Sheng Li; Ning Wei

doi:10.4028/www.scientific.net/AMR.591-593.296

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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 591-593Design of Armored Vehicles Lead-Acid Battery State...

Design of Armored Vehicles Lead-Acid Battery State Monitoring System

Abstract:

In order to raise the maintenance efficiency of the armored vehicles Lead-Acid battery, this paper introduces an state monitoring system of Lead-Acid battery. The system used the ATMEGA8 as the control core. Through designing measuring circuit of the terminal voltage, internal resistance and temperature as well as building a human-computer interaction user interface using the C++builder, the system can fast and accurately monitors the state of battery. At the same time, we try to use the lock-in amplifying technology to measure the battery inner resistance. The experiment results show that the system easy to use and has a high accuracy.

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Periodical:

Advanced Materials Research (Volumes 591-593)

Pages:

296-300

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.591-593.296

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Online since:

November 2012

Authors:

Gang Li, Yong Cheng Xie, Guang Sheng Li, Ning Wei

Keywords:

Armored Vehicles Lead-Acid Battery, Atmega8, Lock-In Amplifying Technology, State Monitoring

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References

[1] M Coleman, W.G. Hurley: IEEE Transactions On Energy Conversion,2008,23(2):708-713

Google Scholar

[2] C. R. Gould, C. M. Bingham, D. A. Stone, and P. Bentley: SPEEDAM 2008 International Symposium on Power Electronics, Electrical Drives, Automation and Motion. pp.1217-1222

Google Scholar

[3] C. R. Gould, C. M. Bingham, D. A. Stone, and P. Bentley: IEEE Transactions On Vehicular Technology. 2009,58(8):3905-3916

Google Scholar

[4] LIU Bai-fen, LENG Xiong-chun: Journal of Chinese Test Technology, 2007,33(1),pp.136-138(In Chinese)

Google Scholar

[5] C. Ma, W.Q. Zhan. ATmega8 Principle and Application Manual(Tsinghua University Press, Chinese 2003)

Google Scholar