Research on a Novel High-Precision Intelligent Displacement Sensor

Xiao Kang Liu; Dong Lin Peng; Xing Hong Zhang; Xi Hou Cheng

doi:10.4028/www.scientific.net/SSP.113.435

Paper Titles

Continuous Method for Assessment of Wear under Conditions of Technically Dry Friction
p.415

Investigation of Quality Change in Locomotive Lubricant
p.420

Determining Major Factors Causing the Wear of Wheelset Tyres
p.425

Mechatronic Correctional Devices for Precision Engineering
p.429

Research on a Novel High-Precision Intelligent Displacement Sensor
p.435

Optimization of Weighting and Labeling Process
p.442

Dynamic Mode of Line Scale Calibration
p.447

The Hybrid Pixel Sensors and Read-Out Electronics
p.453

Manganite Sensor for Measurements of Magnetic Field Disturbances of Pulsed Actuators
p.459

HomeSolid State PhenomenaSolid State Phenomena Vol. 113Research on a Novel High-Precision Intelligent...

Research on a Novel High-Precision Intelligent Displacement Sensor

Abstract:

A theory of time-space coordinate transformation is presented for measuring space with time. A novel type of displacement sensor named time grating is developed, and methods of electronic rectifying, self-compensation and self-correction are proposed to intelligentize the sensor. Experiment results coming from applications conform to the validity of the proposed theory and methods. The experiment and test results show that high-precision measurement is achieved without high-precision manufacture and that angular displacement is measured very accurately without a dividing scale, which embeds the remarkable characteristics of low cost but high accuracy to the time grating sensor.

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Periodical:

Solid State Phenomena (Volume 113)

Pages:

435-441

DOI:

https://doi.org/10.4028/www.scientific.net/SSP.113.435

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Online since:

June 2006

Authors:

Xiao Kang Liu, Dong Lin Peng, Xing Hong Zhang, Xi Hou Cheng

Keywords:

Electronic Rectifying, Intelligent Displacement Sensor, Measurement, Self-Compensation, Self-Correction

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References

[1] M. Li: Technology for Position Detection and Digital Display (China machine press, China 1993).

Google Scholar

[2] D. Peng, W. Tan, X. Liu, et al: Proceedings of the 2nd International Symposium on Instrumentation Science and Technology (International Committee on Measurement and Instrumentation, Vol. 3, 2002), pp.440-444.

Google Scholar

[3] L. J. T. Ferris: Measurement, Vol. 36 (2004), pp.101-109.

Google Scholar

[4] J. Liu: Smart Sensor Systems (Xidian University Press, China 2000).

Google Scholar

[5] G. Van der Horn and J. L. Huijsing: Integrated Smart Sensors Design and Calibration (Kluwer Academic Publishers, Boston, USA 1998).

Google Scholar

[6] X. K. Liu, D. L. Peng, X. H. Zhang and X. H. Cheng: Key Engineering Materials (Measurement Technology and Intelligent Instruments VI, Vols. 295-296, 2005), pp.753-763.

Google Scholar

[7] X. Liu, D. Peng, Y. Zeng et al.: Proceedings of the 2nd International Symposium on Precision Mechanical Measurements, International Committee on Measurement and Instrumentation, (2004), pp.214-216.

Google Scholar

[8] Y. T. Fei and R. S. Lu: Principle and Technology of Dynamic Measurement Error Compensation (Metrology Press, China 2001).

Google Scholar

[9] A. Sachenko, V. Kochan V. et al: IEEE Instrumentation and Measurement Technology Conference, ( 2001), p.869~874.

Google Scholar