The article describes the unified approach to the tuning of the analog and digital PI controller with two-degree-of-freedom by the multiple dominant pole method for integrating plants with a time delay on the basis of D-transform. The approach is fully analytical and it enables so tuning that the servo and regulatory responses are non-oscillatory without overshoots. The uses are shown in the example.Web of Science161948
A summary of PI and PID controller tuning rules for processes with time delay. Part 1: PI controller...
This paper presents a new PID and PID-like controller design method that permits the designer to con...
The ability of proportional integral (PI) and proportional integral derivative (PID) controllers to ...
At present the two degrees of freedom (2DOF) controllers are more often available. These controllers...
The article is devoted to the simple compensation tuning of analog and digital PI and PID controller...
The paper deals with a new 2DOF PI and PID controllers tuning method for integrating plants. The des...
Abstract: The paper deals with the analytical controller tuning method for the nonoscillatory propor...
In the article two analytical analog controller PI tuning methods are shortly described and compared...
Some analytical results concerning PI controller tuning based on integrator plus time delay models a...
Time delay always exists in several control processes, especially the integrating system, whereas a ...
Tuning rules for PID and PI-PI servo controllers are developed using a pole placement approach with ...
The article is devoted to the simple compensation tuning of analog and digital PI and PID controller...
A method for tuning PI controller parameters, a prescribed maximum time delay error or a relative ti...
Tuning rules for position and velocity controllers in P-PI and PI-PI electrical servomechanisms are ...
This paper describes and compares PI and PID analog controllers tuning methods for integration proce...
A summary of PI and PID controller tuning rules for processes with time delay. Part 1: PI controller...
This paper presents a new PID and PID-like controller design method that permits the designer to con...
The ability of proportional integral (PI) and proportional integral derivative (PID) controllers to ...
At present the two degrees of freedom (2DOF) controllers are more often available. These controllers...
The article is devoted to the simple compensation tuning of analog and digital PI and PID controller...
The paper deals with a new 2DOF PI and PID controllers tuning method for integrating plants. The des...
Abstract: The paper deals with the analytical controller tuning method for the nonoscillatory propor...
In the article two analytical analog controller PI tuning methods are shortly described and compared...
Some analytical results concerning PI controller tuning based on integrator plus time delay models a...
Time delay always exists in several control processes, especially the integrating system, whereas a ...
Tuning rules for PID and PI-PI servo controllers are developed using a pole placement approach with ...
The article is devoted to the simple compensation tuning of analog and digital PI and PID controller...
A method for tuning PI controller parameters, a prescribed maximum time delay error or a relative ti...
Tuning rules for position and velocity controllers in P-PI and PI-PI electrical servomechanisms are ...
This paper describes and compares PI and PID analog controllers tuning methods for integration proce...
A summary of PI and PID controller tuning rules for processes with time delay. Part 1: PI controller...
This paper presents a new PID and PID-like controller design method that permits the designer to con...
The ability of proportional integral (PI) and proportional integral derivative (PID) controllers to ...