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Development of digital stroke sensing cylinder and its performance evaluation

Published online by Cambridge University Press:  09 March 2009

Extract

Automation of heavy construction machinery needs sensors that can detect each position under severe construction fields. Motivated by this need a hydraulic cylinder equipped with Hall sensors of Ga-As type has been developed. However, this sensor device has some problems associated with incorrect detection of positions owing to the existence of some magnetic slope and electric noises. To solve these problems, this paper proposes a digital stroke sensing cylinder enhanced by digital signal processing. An apparatus of two hydraulic systems coupled with each other is installed in an experimental setup to evaluate the performance of the developed digital stroke sensing cylinder. In order to control the position of a cylinder rod, a PWM method is used. Evaluation of the performance is carried out under artificial disturbances such as an impulse, addition of some magnetic slope, and additional noises.

Type
Research Article
Copyright
Copyright © Cambridge University Press 1996

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References

1.Murakami, T. and Kitsunai, M., “A hydraulic cylinder with a magnetic stroke sensor” SAE Technical Paper Series 921672 (1992).CrossRefGoogle Scholar
2.Lee, M.C., Lee, M.H., Choi, Y.J., Yang, S.Y. and Yoon, K.S., “On development of stroke sensing cylinder for automatic excavatorProc. of the IEEE ISIE'95, (1995) Vol. 1 of 2, pp. 363368.Google Scholar
3.Kataoka, S. et al. (S.H. Paik, translator), Sensor Handbook (Sehwa Pub. Com., 1990) (in Korean).Google Scholar
4.Göpel, W., Hesse, J. and Zemel, J. N., Sensors: A Comprehensive Survey Vol. 5 (VCH, Germany, 1989).Google Scholar
5.Gill, P., Ukrainetz, P.R. and Burton, R.T., “Physical effects of pulse width modulation on valves and loads” SAE Technical Paper Series, 891862 (1989).Google Scholar
6.Ramirez, H.S., “A geometric approach to pulse width modulated control design” Proc. of the 26th IEEE conf. on D & C (1987) pp. 17711776.Google Scholar
7.Park, S.H., “A study on control of electro-hydraulic servo system using high speed solenoid valve” Pusan National University Ph.D Thesis (1996) (in Korean).Google Scholar
8.Aoshima, N., “Microprocessor-based system identification by signal compression method” Proc. of the 9th Triennial World Congress of lFAC (1986) pp. 27712776.Google Scholar
9.Lee, M.C. and Aoshima, N., “Identification and its evaluation of the system with a nonlinear element by signal compression methodTrans, of SICE (Society for Instrument and Control Engineers) 25, No. 7, 729736 (1989).Google Scholar
10.Malvino, A.P., Electronic Principles (Sanghak Pub. Com., Korea, 1993).Google Scholar