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Journals2006 Journal of the Chinese Institute of Engineers
Time and Frequency Domain Identification and Analysis of a Permanent Magnet Synchronous Servo Motor
Jui-Jung Liu, Ya-Wei Lee, Fu-Cheng Wang, Ramesh Uppala and Ping-Hei Chen
Abstract
This study employed the approach of non-linear autoregressive moving average model with exogenous inputs (NARMAX) to analyze the dynamics of a Permanent Magnet Synchronous Motor (PMSM). The non-linearity in PMSM including cogging force, reluctance force and force ripple is difficult to estimate. By using the NARMAX approach, thrust-speed relationship and thrust-position relationship could be analyzed by identifying both time and frequency domain models of the system. The frequency domain analysis is studied by mapping the discrete-time NARMAX models into generalized frequency response functions (GFRFs) to reveal the non-linear coupling between the various input spectral components and the energy transfer mechanisms in the system. From the results, the interpretation of the higher-order GFRFs has been comprehensively studied and non-linear effects have been related to the physical models of the systems.
2006 Proceedings of the 45th IEEE Conference on Decision and Control
The Performance Improvements of Train Suspension Systems with Inerters
Fu-Cheng Wang, Chung-Huang Yu, Mong-Lon Chang and Mowson Hsu
Abstract
This paper investigates the performance benefits of train suspension systems employing a new mechanical network element, called Inerter. Combined with traditional passive suspension elements - dampers and springs, Inerter is shown to be capable of improving the performance, in terms of the passenger comfort, system dynamics and stability (safety), of the train suspension systems. Furthermore, a motor-driven platform is constructed to test the properties of suspension struts with inerters.
2006 Proceedings of the Fourth International Conference on Fuel Cell Science, Engineering and Technology
Proton Exchange Membrane Fuel Cell System Identification and Control: Part II: H-infinity based Robust Control
Fu-Cheng Wang, Yee-Pien Yang, Hsin-Ping Chang, Ying-Wei Ma, Chih-Wei Huang, and Biing-Jyh Weng
Abstract
This paper applies robust control strategies to a PEM fuel-cell system. In Part I of this work [17], a PEM fuel cell was described as a two-input-two-output system with the inputs of hydrogen and air flow rates, and the outputs of cell voltage and current. From the responses, system identification techniques were adopted to model the system transfer function matrix. Then adaptive control methods were applied to control the system with encouraging results. In this paper, the H-infinity robust control strategy is proposed due to the highly nonlinear and time-varying characteristics of the system. From the results, it is illustrated to be an efficient control method for the fuel cell systems.
2006 Proceedings of the Fourth International Conference on Fuel Cell Science, Engineering and Technology
Proton Exchange Membrane Fuel Cell System Identification and Control: Part I: System Dynamics, Modeling and Identification
Yee-Pien Yang, Fu-Cheng Wang, Hsin-Ping Chang, Ying-Wei Ma, Chih-Wei Huang and Biing-Jyh Weng