Title :
Anti-windup compensator schemes for DC servo motor speed control system
Author :
Mehdi, Nafaa ; Malik, Fahad Mumtaz ; Salman, Molly ; Rehan, Muhammad ; Qaiser, Nauman
Author_Institution :
Dept. of Electr. Eng., Nat. Univ. of Sci. & Technol., Islamabad, Pakistan
Abstract :
This paper deals with design, simulation and implementation of anti-windup compensator (AWe) schemes for speed control of a DC servo motor. AWC is an auxiliary controller that ensures stability and performance in the event of input saturation which in turn cause windup. Three anti-windup compensator (AWC) schemes have been implemented to overcome the windup effects namely robust AWe, internal model control (IMC) based AWC and static AWC. Schemes are decoupled architecture based. Linear Matrix Inequalities (LMIs) are required to be solved to obtain the compensator gain for the robust and static AWCs. IMC based approach uses the plant dynamics to compensate for the input saturation effects. Further a comprehensive comparison of all the schemes has been included. Hardware-in-loop (HIL) simulations give an industrial and academic importance to this work.
Keywords :
DC motors; angular velocity control; linear matrix inequalities; machine control; servomotors; stability; DC servo motor; HIL simulations; IMC; LMI; anti-windup compensator schemes; auxiliary controller; hardware-in-loop simulations; internal model control; linear matrix inequality; robust AWe; speed control system; stability; static AWC; turn cause windup; DC motors; Mathematical model; Robustness; Servomotors; Stability analysis; Velocity control; Windup; Anti-windup compensator; DC servo motor; Decoupled architecture; Linear matrix inequality;
Conference_Titel :
Robotics and Emerging Allied Technologies in Engineering (iCREATE), 2014 International Conference on
Conference_Location :
Islamabad
Print_ISBN :
978-1-4799-5131-4
DOI :
10.1109/iCREATE.2014.6828379
