Abstract
This paper presents a review of advanced architectures based on the partial power processing concept, whose main objective is to achieve a reduction of the power processed by the converter. If the power processed by the converter is decreased, the power losses generated by the power converter are reduced, obtaining lower sized converters and higher system efficiencies. Through the review 3 different partial power processing strategies are distinguished: Differential Power Converters, Partial Power Converters and Mixed strategies. Each strategy is subdivided into smaller groups that entail different architectures with their own advantages and disadvantages. Also, due to the lack of agreement that exists in the sources around the naming of the different architectures, this paper seeks to stablish a nomenclature that avoids confusion when indexing this type of architectures. Regarding Partial Power Converters an extensive application oriented description is also developed. Finally, the main conclusions obtained through the review are presented.
Highlights
Over the last decade, Partial Power Processing (PPP) has turned into an attractive solution regarding power converter downsizing and efficiency improvement [1]
There is no criteria in the naming of the PPP strategy nor in the classification according to their characteristics
When it comes to Partial Power Converters (PPC) architectures that do not require isolated topologies (Figure 7), the voltage and current sizing of the devices inside the power converter are the same as in a FPC, which forces to carry on with further research around advanced non-isolated topologies
Summary
Partial Power Processing (PPP) has turned into an attractive solution regarding power converter downsizing and efficiency improvement [1]. The advantages that PPP offers are very suitable for present and future coming applications, such as, energy storage systems (ESS) connected to renewable sources [2], [3] and electric vehicle (EV) fast charging stations [4]. This type of applications are usually considered as DC, but, there exists some research around DC-AC inverters based on PPP [5], [6].
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