This paper presents the derivation of a linearized model for flapper-nozzle type two-stage electrohydraulic servovalves from the nonlinear state equations. The coefficients of the linearized model are derived in terms of the valve physical parameters and fluid properties explicitly, and are useful for valve design and sensitivity analysis. When using this model structure to fit experimental frequency response data, the results render closer agreement than when using existing low order linear models. This model also suggests important servovalve dynamic properties such as the nonminimum phase zero and the transfer function relative degree, and how they relate to the valve component arrangement. Because of the small modeling errors over a wide frequency range, a high bandwidth control system can be designed. A robust performance controller is designed and implemented to demonstrate the utility of the model. [S0022-0434(00)03401-8]
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March 2000
Technical Papers
A Linearized Electrohydraulic Servovalve Model for Valve Dynamics Sensitivity Analysis and Control System Design
Dean H. Kim,
Dean H. Kim
Department of Mechanical Engineering, Bradley University, Peoria, IL 61625
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Tsu-Chin Tsao
Tsu-Chin Tsao
Mechanical & Aerospace Engineering Department, University of California, Los Angeles, Los Angles, CA 90095-1597
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Dean H. Kim
Department of Mechanical Engineering, Bradley University, Peoria, IL 61625
Tsu-Chin Tsao
Mechanical & Aerospace Engineering Department, University of California, Los Angeles, Los Angles, CA 90095-1597
Contributed by the Dynamic Systems and Control Division for publication in the JOURNAL OF DYNAMIC SYSTEMS, MEASUREMENT, AND CONTROL. Manuscript received by the Dynamic Systems and Control Division February 2, 1998. Associate Technical Editor: R. Chandran.
J. Dyn. Sys., Meas., Control. Mar 2000, 122(1): 179-187 (9 pages)
Published Online: February 2, 1998
Article history
Received:
February 2, 1998
Citation
Kim, D. H., and Tsao, T. (February 2, 1998). "A Linearized Electrohydraulic Servovalve Model for Valve Dynamics Sensitivity Analysis and Control System Design ." ASME. J. Dyn. Sys., Meas., Control. March 2000; 122(1): 179–187. https://doi.org/10.1115/1.482440
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