High Performance Power Conditioning System Using Dynamic-Game-Theory-Based Variable Structure Controller

En Chih Chang; Chun An Cheng; Chien Hsuan Chang; Hung Liang Cheng

doi:10.4028/www.scientific.net/AMM.284-287.2367

Paper Titles

Voltage Control of PM Synchronous Generator System Using Recurrent Wavelet Neural Network Controller
p.2346

Wind Shear Encountered Landing Control Based on CMACs
p.2351

Design of Robust and Non-Fragile Kalman Filter with Polytopic Uncertainties: PLMI Approach
p.2356

Adaptive Temperature Set Point of Air Handling Units Using Fuzzy Logics
p.2361

High Performance Power Conditioning System Using Dynamic-Game-Theory-Based Variable Structure Controller
p.2367

Designing and Realizing of Universal Test and Analysis System of Avionics Data Bus
p.2371

Developing an Expert System of Failure Analysis
p.2375

GA Based Hybrid Fuzzy Rule Optimization Approach for Elevator Group Control System
p.2380

Green Transport System: A Technology Demonstration of Adaptive Road Lighting with Giant Magnetoresistive Sensor Network for Energy Efficiency and Reducing Light Pollution
p.2385

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 284-287High Performance Power Conditioning System Using...

High Performance Power Conditioning System Using Dynamic-Game-Theory-Based Variable Structure Controller

Abstract:

In this paper, a variable structure controller based on dynamic game theory is proposed to reduce the effects of parameter variations, and external disturbances caused by uncertain systems. The variable structure controller (VSC) is a popular method for tracking control, since it can offer robustness to parameter variations, and external disturbances. However, the chattering problem occurs. The chattering may cause the degraded system performance and poor tracking control. Thus, the dynamic game theory is applied in VSC, to quickly, and precisely enforce the system states to the sliding surface, thus reducing the chattering. The stability and the convergence of the overall system are confirmed by the Hamiltonian function. The control algorithm has been realized for the actual power conditioning system (PCS) controlled by a TMS320F2812 DSP. With this proposed controller, an example that the controlled PCS under nonlinear loads yields the better robustness in performance. Experimental results validate the theoretical analysis.

You might also be interested in these eBooks

Innovation for Applied Science and Technology

View Preview

Info:

Periodical:

Applied Mechanics and Materials (Volumes 284-287)

Pages:

2367-2370

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.284-287.2367

Citation:

Cite this paper

Online since:

January 2013

Authors:

En Chih Chang, Chun An Cheng, Chien Hsuan Chang, Hung Liang Cheng

Keywords:

Chattering, Dynamic Game Theory, Power Conditioning System (PCS), Variable Structure Controller (VSC)

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

References

[1] Y.Y. Tzhou, R.S. Ou, S.L. Jung and M.Y. Chang, High-performance programmable AC power source with low harmonic distortion using DSP-based repetitive control technique, IEEE Trans. Power Electron., 12 (1997), 715-725.

DOI: 10.1109/63.602567

Google Scholar

[2] B.R. Lin and R.G. Hoft, Real-time digital control of PWM inverter with fuzzy logic compensator for nonlinear loads, Conf. Rec. 1993 IEEE IAS Annual Meeting, 2 (1993), 862-869.

DOI: 10.1109/ias.1993.299000

Google Scholar

[3] L. Malesani, L. Rossetto, A. Spiazzi and A. Zuccato, An ac power supply with sliding-modecontrol, Conf. Rec. IEEE IAS Annual Meeting, 2 (1993), 1115-1121.

DOI: 10.1109/ias.1993.299037

Google Scholar

[4] J.F. Silva and S.S. Pamlo, Fixed frequency sliding modulator for current mode PWM inverters, Proc. IEEE PESC'93, (1993), 623-629.

DOI: 10.1109/pesc.1993.471991

Google Scholar

[5] T. Basar and G.J. Olsder, Dynamic noncooperative game theory, Academic Press, New York, 1982.

Google Scholar