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Application of neural networks and state-space averaging to DC/DC PWM converters in sliding-mode operation
Mahdavi, J ; Sharif University of Technology | 2005
166
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- Type of Document: Article
- DOI: 10.1109/TMECH.2004.842227
- Publisher: 2005
- Abstract:
- A novel output feedback neural controller is presented in this paper for the implementation of sliding-mode control of dc/dc converters. The controller, which consists of a multilayer perceptron, has been trained in order to be robust for large variations of system parameters and state variables. Fast dynamic behavior is the other main advantage of the proposed controller, which allows realization of all beneficial features of the sliding-mode control technique. Other advantages of the controller are simplicity and low cost. Computer simulations have been carried out to investigate the effectiveness of the controller in voltage regulation for a relatively complex dc/dc converter topology of the Cuk converter. Simulation results confirm the excellent performance of the control system in response to large signal variations. In order to verify the simulation results, a controller prototype has been designed and built using analog components. The controller is applied to regulate the output voltage of the Cuk converter. Experimental results confirm the analytical and simulation achievements. © 2005 IEEE
- Keywords:
- Computer simulation ; Feedback control ; Mathematical models ; Neural networks ; Power converters ; State space methods ; Voltage control ; Cuk converter ; DC-DC converter ; Power converter modeling ; State space averaging ; Sliding mode control
- Source: IEEE/ASME Transactions on Mechatronics ; Volume 10, Issue 1 , 2005 , Pages 60-67 ; 10834435 (ISSN)
- URL: https://ieeexplore.ieee.org/document/1395868