DESIGN OF A CONTINUOUS SLIDING MODE CONTROLLER FOR THE ELECTRONIC THROTTLE VALVE SYSTEM

Main Article Content

Shibly Ahmed AL-Samarraie

Abstract

Lowering the emission, fuel economy and torque management are the essential
requirements in the recent development in the automobile industry. The main engine control
input that satisfies the above requirements is the throttling angle which adjusts the air mass
flow rate to the engine port. Due to the uncertainty and the presence of the nonlinear
components in its dynamical model, the sliding mode control theory is utilized in this work
for the throttle valve angle control system to design a robust controller for this system in the
presence of a nonlinear spring and Coulomb friction. A continuous sliding mode control law
which consists of a saturation function, instead of a signum function, and the integral of
another saturation function is used in this work. This choice for the control structure will
prevent the chattering to occurs but with a certain steady state error. On the other hand, the
addition of the integral term will effectively reduce the steady state error according to the
choice of its parameters. The simulations result for typical references of the opening throttle
angle demonstrate the effectiveness of the proposed controller, especially after the addition of
a nonlinear integral term.

Article Details

How to Cite
“DESIGN OF A CONTINUOUS SLIDING MODE CONTROLLER FOR THE ELECTRONIC THROTTLE VALVE SYSTEM” (2011) Journal of Engineering, 17(04), pp. 859–871. doi:10.31026/j.eng.2011.04.16.
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Articles

How to Cite

“DESIGN OF A CONTINUOUS SLIDING MODE CONTROLLER FOR THE ELECTRONIC THROTTLE VALVE SYSTEM” (2011) Journal of Engineering, 17(04), pp. 859–871. doi:10.31026/j.eng.2011.04.16.

Publication Dates

References

• Pan Y., Ozguner U., and Da˘gci O. H., (2008),"Variable-Structure Control of Electronic Throttle Valve", IEEE

Transaction on Industrial Electronics, Vol. 55, No. 11, November, pp. 3899-3907.

•Electronic Throttle Control Systemintelligent. http://www.ncttora.com/fsm/20 03/4runner/215/ncf/1gr-fe_etcs-i.pdf.

• Jun-Mo Kang and Grizzle J. W., (1999) "Nonlinear Control for Joint Air and Fuel Management in a SI Engine", Proceedings of the 1999 American Control Conference.

•Kazushi Nakano, Umerujan Sawut, Kohji Higuchi, and Yasusuke Okajima, (2006), "Modeling and Observer-based Sliding-

Mode Control of Electronic Throttle Systems", ECTI Transaction on Electrical ENG., Electronics, and Communication

Vol.4, No.1, pp. 22-28.

•Ozguer U., Hong S., and Pan Y., (2001), “Discrete-time sliding mode control of electronic throttle”, in Proc. CDC,

Orlando, FL, , pp. 1819–1824.

•Reichhartinger M. and Horn M., (2009), “Application of Higher Order Sliding- Mode Concepts to a Throttle Actuator for

Gasoline Engines", IEEE Transaction on Industrial Electronics, Vol. 56, No. 9, pp.3322-3329.

• Agrachev A. A., Morse A. S., Sontag E. D., Sussmann H. J., and Utkin V. I., (2004), "Nonlinear and Optimal Control

Theory", Springer, Lectures given at the C.I.M.E. Summer School held in Cetraro,Italy, June 19–29.

• Slotine J.-J. E., (1983), "Tracking control of nonlinear systems using sliding surfaces", Ph.D. Thesis, Massachusetts

Institute of Technology, Dept. of Aeronautics and Astronautics.

•Khalil H. K., (2002) " Nonlinear Systems", 3rd Edition, Prentise Hall, USA.

•Horn M. and Reichhartinger M., (2008)" Control of an Electronic Throttle Valve based on Concepts of Sliding-Mode

Control", in Proc. 17th IEEE Int. Conf. Control Appl., pp. 251–255.

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