Title :
Design of lateral dynamics control for web Roll-to-Roll systems
Author :
Tsai, S. ; Mukhopadhyay, S.C. ; Yoksen, N. ; Chang, J.Y.
Author_Institution :
Sch. of Eng. & Adv. Technol., Massey Univ., Palmerston North, New Zealand
Abstract :
In a Roll-to-Roll system, web material experiences lateral motion during the transportation to processes. This paper presents the lateral dynamics control system integration using centered pivoted displacement guide for Roll-to-Roll application. A system apparatus is consisted with four units, namely Unwinder unit, Load Cell unit, Guide System unit and Rewinder unit. Two microcontrollers are proposed to control the four units with signal conditioning circuits. The Guide system dynamics are simulated using first order single degree-of-freedom oscillator model controlled with classical PID servo designs. Lateral error for the system is also applied to the simulation. Results are shown to have reduced the lateral motion when media transport speeds are at 20m/min, 40m/min and 60m/min.
Keywords :
displacement control; electronics industry; microcontrollers; motion control; oscillators; servomechanisms; three-term control; winding (process); centered pivoted displacement guide; classical PID servo designs; first order single degree-of-freedom oscillator model; guide system dynamics; guide system unit; lateral dynamics control system integration; lateral error; lateral motion; load cell unit; media transport; microcontrollers; rewinder unit; signal conditioning circuits; system apparatus; unwinder unit; web material; web roll-to-roll systems; Dynamics; Load modeling; Mathematical model; Microcontrollers; Motion control; Sensors; Guiding System; Lateral Motion; PID control; Roll-to-Roll System;
Conference_Titel :
Mechatronics and Machine Vision in Practice (M2VIP), 2012 19th International Conference
Conference_Location :
Auckland
Print_ISBN :
978-1-4673-1643-9
