An Approach for Engineering Tuning of PID-Controller with Dynamic Object from Second Order

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An Approach for Engineering Tuning of PID-Controller with Dynamic Object from Second Order

Journal Title: International Journal of Engineering Innovations and Research - Year 2018, Vol 7, Issue 2

Abstract

An approach is proposed for engineering adjustment of the PID-controller with a dynamic second order object. There is a proposal to solve the problem by solving the characteristic equation. As a result of the third row dynamic system analysis, the adjustment parameters of the PID-controller are calculated. The transitionаl processes of the closed system (object-controller) are dealt with by assignment and disturbance. For the transitional process by assignment, overshoot %0,4occurs. If a comparison of the overshoot of the transitional process by assignment (obtained in simulation) is made, 0,6% inaccuracy is observed in theory. Therefore, the proposed approach for engineering adjustment for a PID-controller with a second-order dynamic object is suitable for use in third-order dynamic systems analysis.

Authors and Affiliations

Georgi Petrov Terziyski, et al.

Keywords

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EP ID EP496529
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