Simulator of Hydraulic Supercharger Based on Virual Instrument

Chun Xiao Hu; Hua Bing Zhu; Hui Juan Ye

doi:10.4028/www.scientific.net/AMR.548.627

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HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 548Simulator of Hydraulic Supercharger Based on...

Simulator of Hydraulic Supercharger Based on Virual Instrument

Abstract:

In order to build a platform for overhaul and simulation training of CCIS (Command Control Information System), the simulation model of the hydraulic supercharger was established. By the model the simulator of hydraulic supercharger was designed and developed based on virtual instrument technology and SCM (single chip microcomputer) technology, the software of the simulator which was designed by the LabWindows/CVI provided a virtual interface and the hardware of the simulator which was developed with the SCM system gave the correct signal. As a result, when the simulator of hydraulic supercharger was connected to the CCIS, the simulation result was realized to be consistent with the real hydraulic supercharger.

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Periodical:

Advanced Materials Research (Volume 548)

Pages:

627-631

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.548.627

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Online since:

July 2012

Authors:

Chun Xiao Hu, Hua Bing Zhu, Hui Juan Ye

Keywords:

Hydraulic Supercharger, LabWindows/CVI, Simulation Model, Virtual Instrument (VI)

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References

[1] F. J. Jimenez, J. De. Frutos. Virtual Instrument for Measurement, Processing data, and Visualization of Vibration Patterns of Piezoelectric Devices. In: Computer Standards & Interfaces, 2005, Elsevier Science Publishers B.V.; 2005 pp.653-663.

DOI: 10.1016/j.csi.2004.09.010

Google Scholar

[2] LIU Sijiu, ZHANG Liyong. Automatic Test System and Virtual Instrument Principles • Development • Application. Beijing: Electronic Industry Press, (2009).

Google Scholar

[3] WANY Hanxiang, ZHANG Hao and JIA Peng. System Simulation and Working-mechanism Research on Differential Underground Supercharger. Hydraulic and Pneumatic, 2009; 10: 19-22.

Google Scholar

[4] HE Cunxing, ZHANG Tiehua. Hydraulic Drive and Pneumatic Drive, Second Edition. Wuhan: Huzhong University of Science and Technology Press, (2000).

Google Scholar

[5] Guangfan SHI, Guangming YAN, Guanran WANY, Zequo CHENG. The Design and Implement of Virtual Instrument Based on Computing Technique and USB Platform. In: Proceedings of ICITA'05, Washington: IEEE Press; 2005. pp.291-294.

DOI: 10.1109/icita.2005.270

Google Scholar

[6] SONG Yufeng. LabWindows/CVI Gradual Study and Development Instance . Beijing: Machinery Industry Press, (2003).

Google Scholar