The boost topology with ripple cancellation network allows input and output current ripple attenuation, which means the suppression of the input filter and a high reduction of the output filter. However, to achieve the ripple cancellation, the complexity and the number of components of the converter increase compared with the conventional boost. A detailed analysis has been developed to specify the advantages and drawbacks of this topology. This paper presents the averaged model that derives the complex transfer function of the topology. The theoretical transfer function has been obtained. Due to the complexity of the seventh order transfer function obtained, a simplified second order transfer function has been calculated in order to simplify control design calculations. A comparison between the analyzed topology and a conventional boost in terms of weight and losses has been carried out. To estimate input and output current ripple calculation, it is proposed the use of the ripple theorem, which allows an estimation of the efficiency of the cancellation network using the averaged model. A prototype to validate ripple cancellation and the dynamic analysis has been developed. Measured waveforms and bode plots are enclosed. Current ripple cancellation at the input and at the output on both conduction modes of the converter has been validated.
Dynamic Analysis of a Boost Topology with Ripple Cancellation and Comparison with the Conventional Boost
2009-01-01
Proceedings of the 24th Annual IEEE Applied Power Electronics Conference and Exposition, APEC 2009 | 24th Annual IEEE Applied Power Electronics Conference and Exposition, APEC 2009 | 15/02/2009 - 19/02/2009 | Washington, Estados Unidos
Aufsatz (Konferenz)
Elektronische Ressource
Englisch
DDC: | 629 |
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