DocumentCode
1520924
Title
Modeling and Matching Design of a Tension Controller Using Pendulum Dancer in Roll-to-Roll Systems
Author
Kang, Hyun-Kyoo ; Lee, Chang-Woo ; Shin, Kee-Hyun ; Kim, Sang-Chul
Author_Institution
Flexible Display Roll-to-Roll Res. Center, Konkuk Univ., Seoul, South Korea
Volume
47
Issue
4
fYear
2011
Firstpage
1558
Lastpage
1566
Abstract
Dancer systems are typical equipment for attenuation of tension disturbances. The two kinds of dancer, active dancer and passive dancer, are distinguished by an external actuator. In the active dancer, the position of the dancer roll is measured and the roll is forced by the external actuator to regulate tension disturbances. However, the passive dancer, composed of a spring, damper and roll has no external actuator. Tension disturbance generates movements of the roll of the passive dancer and the displacements regulate the tension variation. However, the hybrid dancer, which is a mixture of passive and active dancer, is applied for the roll-to-roll systems. It regulates tension disturbances indirectly in the manner of keeping a constant position for the roll by changing the velocity of the driven roller adjacent to the dancer roll. It has different characteristics from those of the passive or active dancer. In this paper, the modeling of the pendulum dancer is derived. The dynamics of the hybrid dancer, which feedbacks the position of the dancer roll, and the PI control of a driven roll are analyzed. The matching logic for tuning gains is developed and experimentally verified.
Keywords
control system synthesis; nonlinear control systems; position measurement; shock absorbers; springs (mechanical); vibration control; active dancer; gain tuning; matching design; matching logic; modeling design; passive dancer; pendulum dancer systems; position measurement; roll-to-roll systems; tension controller; tension disturbance regulation; Actuators; Equations; Guidelines; Mathematical model; Printing; Springs; Steady-state; Gain tuning; matching design; pendulum dancer; roll-to-roll; tension control;
fLanguage
English
Journal_Title
Industry Applications, IEEE Transactions on
Publisher
ieee
ISSN
0093-9994
Type
jour
DOI
10.1109/TIA.2011.2156376
Filename
5771102
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