Design and Comparative Assessment of State Feedback Controllers for Position Control of 8692 DC Servomotor

Автор: Sanusi A. Kamilu, Mohammad D. Abdul Hakeem, Lanre Olatomiwa

Журнал: International Journal of Intelligent Systems and Applications(IJISA) @ijisa

Статья в выпуске: 9 vol.7, 2015 года.

Бесплатный доступ

Accurate control of servomotor in proper positioning of objects is of utmost importance in industrial applications. This paper presents the position control of dc servomotor using pole placement technique via Ackerman’s formula. The mathematical model governing the dynamics of brush dc Pittman servomotor is developed and is then used to analyze which among the full state-feedback controller, feedback controller with feed-forward gain and integral controller with state feedback (SFB) will yield the best control performance. The steady state error, settling time and degree of overshoot are parameters on which the performance level is based. The whole simulation is validated using MATLAB/SIMULINK.

Еще

Position Control, Pole Placement, DC Servomotor, State Feedback Controllers, MATLAB/SIMULINK

Короткий адрес: https://sciup.org/15010748

IDR: 15010748

Список литературы Design and Comparative Assessment of State Feedback Controllers for Position Control of 8692 DC Servomotor

Aung, C.H., K.T. Lwin, and Y.M. Myint, Modeling Motion Control System For Motorized Robot Arm using MATLAB. PWASET VOLUME ISSN, 2008: p. 2070-3740.
Chen, S.-L. and H.-N. Dinh, Design Applications of Synchronized Controller for Micro Precision Servo Press Machine. 2014.
Servo Motor Applications in Robotics Solar Tracking Systems. [cited 2015 03/02]; Available from: http://www.electrical4u.com/servo-motor-applications-in-robotics-solar-tracking-system-etc/.
Ramli, M., M. Rahmat, and M. Najib. Design and Modeling of Integral Control State-feedback Controller for Implementation on Servomotor Control. in 6th WSEAS International Conference on Circuits, Systems, Electronics, Control & Signal Processing, Cairo, Egypt. 2007.
Paraskevopoulos, P., Modern control engineering. Vol. 10. 2001: CRC Press.
Barsaiyan, P. and S. Purwar. Comparison of state feedback controller design methods for MIMO systems. in Power, Control and Embedded Systems (ICPCES), 2010 International Conference on. 2010. IEEE.
M.S. Ramli, M.F. Rahmat, and M.S. NAJIB, Design and Modeling of Integral Control State-feedback Controller for Implementation on Servomotor Control.
Valášek, M. and N. Olgaç, Pole placement for linear time-varying non-lexicographically fixed MIMO systems. Automatica, 1999. 35(1): p. 101-108.
Mahfouz, A.A., M. Mohammed, and F.A. Salem, Modeling, Simulation and Dynamics Analysis Issues of Electric Motor, for Mechatronics Applications, Using Different Approaches and Verification by MATLAB/Simulink. International Journal of Intelligent Systems and Applications (IJISA), 2013. 5(5): p. 39.
Nagrath, I., Control systems engineering. 2006: New Age International.
Katsuhiko, O., Modern control engineering. 2010.
Nise, N.S., CONTROL SYSTEMS ENGINEERING, (With CD). 2007: John Wiley & Sons.

Еще

Статья научная