Classical control laws for power converters are based on the average model. Usually, they have a good performance in the transient. Nevertheless, the steady state behavior is not well-controlled (waveform, subharmonics, etc.). This article shows a predictive approach that reaches an optimal periodic cycle from a set-point of the average model. The method uses the sensitivity functions and a Newton algorithm which allows to track an optimal trajectory based on a cost function. ©2010 IEEE.

A predictive control approach for DC-DC power converters and cyclic switched systems

Ruiz Fredy
2010-01-01

Abstract

Classical control laws for power converters are based on the average model. Usually, they have a good performance in the transient. Nevertheless, the steady state behavior is not well-controlled (waveform, subharmonics, etc.). This article shows a predictive approach that reaches an optimal periodic cycle from a set-point of the average model. The method uses the sensitivity functions and a Newton algorithm which allows to track an optimal trajectory based on a cost function. ©2010 IEEE.
2010
Proceedings of the IEEE International Conference on Industrial Technology
978-1-4244-5695-6
Cycle
Gauss-Newton algorithm
Non-linear programming
Sensitivity function
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11311/1167253
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