DocumentCode
3213126
Title
Sliding Mode Control with Double Boundary Layer for Robust Compensation of Payload Mass and Friction in Linear Motors
Author
Cupertino, Francesco ; Naso, David ; Mininno, Ernesto ; Turchiano, Biagio
Author_Institution
Dipt. di Elettrotec. ed Elettron., Politec. di Bari, Bari
fYear
2008
fDate
5-9 Oct. 2008
Firstpage
1
Lastpage
8
Abstract
Direct drives with linear motors are recently attracting the attention of both industry and academia. The main peculiarity of these systems is the lack of mechanical reduction and transmission devices, which makes the influence of some uncertain electromechanical phenomena (e.g. friction, cogging forces, etc.) and load disturbances much more significant than in the case of conventional rotary actuators. This paper describes a control system for a tubular synchronous linear motor based on a sliding mode controller (SMC) and a Pi-based equivalent disturbance observer. The distinctive peculiarities of the proposed scheme are the use of a control law that guarantees stability of the system regardless of the payload mass, the adoption of a double boundary layer that efficiently contrasts the harmful effects of static friction, and the introduction of a simple Pi-based equivalent disturbance observer that avoids steady state errors regardless model uncertainties and external disturbances. The reduced computational cost of the control alongside with the introduction of effective design criteria for the SMC and disturbance observer make the implementation of the proposed approach as simple as standard cascaded linear control schemes using industrial microcontrollers. The above considerations are validated by extensive experiments.
Keywords
actuators; linear motors; machine control; motor drives; synchronous motor drives; Pi-based equivalent disturbance observer; direct drives; electromechanical phenomena; industrial microcontrollers; linear motors; load disturbances; mechanical reduction; rotary actuators; sliding mode controller; static friction; transmission devices; tubular synchronous linear motor; Control systems; Electrical equipment industry; Forging; Friction; Payloads; Pneumatic actuators; Robust control; Sliding mode control; Synchronous motors; Weight control;
fLanguage
English
Publisher
ieee
Conference_Titel
Industry Applications Society Annual Meeting, 2008. IAS '08. IEEE
Conference_Location
Edmonton, Alta.
ISSN
0197-2618
Print_ISBN
978-1-4244-2278-4
Electronic_ISBN
0197-2618
Type
conf
DOI
10.1109/08IAS.2008.222
Filename
4659010
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